Isolated human secreted proteins, nucleic acid molecules encoding human secreted proteins, and uses thereof

ABSTRACT

The present invention provides amino acid sequences of peptides that are encoded by genes within the human genome, the secreted peptides of the present invention. The present invention specifically provides isolated peptide and nucleic acid molecules, methods of identifying orthologs and paralogs of the secreted peptides, and methods of identifying modulators of the secreted peptides.

FIELD OF THE INVENTION

[0001] The present invention is in the field of secreted proteins that are related to the thrombospondin secreted subfamily, recombinant DNA molecules, and protein production. The present invention specifically provides novel peptides and proteins that effect protein phosphorylation and nucleic acid molecules encoding such peptide and protein molecules, all of which are useful in the development of human therapeutics and diagnostic compositions and methods.

BACKGROUND OF THE INVENTION

[0002] Secreted Proteins

[0003] Many human proteins serve as pharmaceutically active compounds. Several classes of human proteins that serve as such active compounds include hormones, cytokines, cell growth factors, and cell differentiation factors. Most proteins that can be used as a pharmaceutically active compound fall within the family of secreted proteins. It is, therefore, important in developing new pharmaceutical compounds to identify secreted proteins that can be tested for activity in a variety of animal models. The present invention advances the state of the art by providing many novel human secreted proteins.

[0004] Secreted proteins are generally produced within cells at rough endoplasmic reticulum, are then exported to the golgi complex, and then move to secretory vesicles or granules, where they are secreted to the exterior of the cell via exocytosis.

[0005] Secreted proteins are particularly useful as diagnostic markers. Many secreted proteins are found, and can easily be measured, in serum. For example, a ‘signal sequence trap’ technique can often be utilized because many secreted proteins, such as certain secretory breast cancer proteins, contain a molecular signal sequence for cellular export. Additionally, antibodies against particular secreted serum proteins can serve as potential diagnostic agents, such as for diagnosing cancer.

[0006] Secreted proteins play a critical role in a wide array of important biological processes in humans and have numerous utilities; several illustrative examples are discussed herein. For example, fibroblast secreted proteins participate in extracellular matrix formation. Extracellular matrix affects growth factor action, cell adhesion, and cell growth. Structural and quantitative characteristics of fibroblast secreted proteins are modified during the course of cellular aging and such aging related modifications may lead to increased inhibition of cell adhesion, inhibited cell stimulation by growth factors, and inhibited cell proliferative ability (Eleftheriou et al., Mutat Res March-November 1991;256(2-6):127-38).

[0007] The secreted form of amyloid beta/A4 protein precursor (APP) functions as a growth and/or differentiation factor. The secreted form of APP can stimulate neurite extension of cultured neuroblastoma cells, presumably through binding to a cell surface receptor and thereby triggering intracellular transduction mechanisms. (Roch et al., Ann N Y Acad Sci Sep. 24, 1993;695:149-57). Secreted APPs modulate neuronal excitability, counteract effects of glutamate on growth cone behaviors, and increase synaptic complexity. The prominent effects of secreted APPs on synaptogenesis and neuronal survival suggest that secreted APPs play a major role in the process of natural cell death and, furthermore, may play a role in the development of a wide variety of neurological disorders, such as stroke, epilepsy, and Alzheimer's disease (Mattson et al., Perspect Dev Neurobiol 1998; 5(4):337-52).

[0008] Breast cancer cells secrete a 52K estrogen-regulated protein (see Rochefort et al., Ann N Y Acad Sci 1986;464:190-201). This secreted protein is therefore useful in breast cancer diagnosis.

[0009] Two secreted proteins released by platelets, platelet factor 4 (PF4) and beta-thromboglobulin (betaTG), are accurate indicators of platelet involvement in hemostasis and thrombosis and assays that measure these secreted proteins are useful for studying the pathogenesis and course of thromboembolic disorders (Kaplan, Adv Exp Med Biol 1978;102:105-19).

[0010] Vascular endothelial growth factor (VEGF) is another example of a naturally secreted protein. VEGF binds to cell-surface heparan sulfates, is generated by hypoxic endothelial cells, reduces apoptosis, and binds to high-affinity receptors that are up-regulated by hypoxia (Asahara et al., Semin Interv Cardiol September 1996;1(3):225-32).

[0011] Many critical components of the immune system are secreted proteins, such as antibodies, and many important functions of the immune system are dependent upon the action of secreted proteins. For example, Saxon et al., Biochem Soc Trans May 1997;25(2):383-7, discusses secreted IgE proteins.

[0012] For a further review of secreted proteins, see Nilsen-Hamilton et al., Cell Biol Int Rep September 1982;6(9):815-36.

[0013] The protein of the present invention has a substantial similarity to trombospondin. Thrombospondin is one of a class of adhesive glycoproteins that mediate cell-to-cell and cell-to-matrix interactions. Two monoclonal antibodies have been used to isolate cDNA clones of thrombospondin from a human endothelial cell cDNA library. The complete nucleotide sequence of the coding region has been determined. There are three types of repeating amino acid sequence present in thrombospondin. The first is 57 amino acids long and shows homology with circumsporozoite protein from Plasmodium falciparum. The second is 50-60 amino acids long and shows homology with epidermal growth factor precursor. The third occurs as a continuous eightfold repeat of a 38-residue sequence; structural homology with parvalbumin and calmodulin indicates that these repeats constitute the multiple calcium-binding sites of thrombospondin. The amino acid sequence arg-gly-asp-ala is included in the last type 3 repeat. This sequence is probably the site for the association of thrombospondin with cells. In addition, localized homologies with procollagen, fibronectin, and von Willebrand factor are present in one region of the thrombospondin molecule. For a review related to this protein, see Lawler et al., J Cell Biol November 1986;103(5):1635-48.5ecreted proteins, particularly members of the thrombospondin secreted protein subfamily, are a major target for drug action and development. Accordingly, it is valuable to the field of pharmaceutical development to identify and characterize previously unknown members of this subfamily of secreted proteins. The present invention advances the state of the art by providing previously unidentified human secreted proteins that have homology to members of the thrombospondin secreted protein subfamily.

SUMMARY OF THE INVENTION

[0014] The present invention is based in part on the identification of amino acid sequences of human secreted peptides and proteins that are related to the thrombospondin secreted protein subfamily, as well as allelic variants and other mammalian orthologs thereof. These unique peptide sequences, and nucleic acid sequences that encode these peptides, can be used as models for the development of human therapeutic targets, aid in the identification of therapeutic proteins, and serve as targets for the development of human therapeutic agents that modulate secreted protein activity in cells and tissues that express the secreted protein. Experimental data as provided in FIG. 1 indicates expression in the infant brain and placenta.

DESCRIPTION OF THE FIGURE SHEETS

[0015]FIG. 1 provides the nucleotide sequence of a cDNA molecule or transcript sequence that encodes the secreted protein of the present invention. (SEQ ID NO:1) In addition, structure and functional information is provided, such as ATG start, stop and tissue distribution, where available, that allows one to readily determine specific uses of inventions based on this molecular sequence. Experimental data as provided in FIG. 1 indicates expression in the infant brain and placenta.

[0016]FIG. 2 provides the predicted amino acid sequence of the secreted protein of the present invention. (SEQ ID NO:2) In addition structure and functional information such as protein family, function, and modification sites is provided where available, allowing one to readily determine specific uses of inventions based on this molecular sequence.

[0017]FIG. 3 provides genomic sequences that span the gene encoding the secreted protein of the present invention. (SEQ ID NO:3) In addition structure and functional information, such as intron/exon structure, promoter location, etc., is provided where available, allowing one to readily determine specific uses of inventions based on this molecular sequence. 137 SNPs, including 23 indels, have been identified in the gene encoding the secreted protein provided by the present invention and are given in FIG. 3.

DETAILED DESCRIPTION OF THE INVENTION

[0018] General Description

[0019] The present invention is based on the sequencing of the human genome. During the sequencing and assembly of the human genome, analysis of the sequence information revealed previously unidentified fragments of the human genome that encode peptides that share structural and/or sequence homology to protein/peptide/domains identified and characterized within the art as being a secreted protein or part of a secreted protein and are related to the thrombospondin secreted protein subfamily. Utilizing these sequences, additional genomic sequences were assembled and transcript and/or cDNA sequences were isolated and characterized. Based on this analysis, the present invention provides amino acid sequences of human secreted peptides and proteins that are related to the thrombospondin secreted protein subfamily, nucleic acid sequences in the form of transcript sequences, cDNA sequences and/or genomic sequences that encode these secreted peptides and proteins, nucleic acid variation (allelic information), tissue distribution of expression, and information about the closest art known protein/peptide/domain that has structural or sequence homology to the secreted protein of the present invention.

[0020] In addition to being previously unknown, the peptides that are provided in the present invention are selected based on their ability to be used for the development of commercially important products and services. Specifically, the present peptides are selected based on homology and/or structural relatedness to known secreted proteins of the thrombospondin secreted protein subfamily and the expression pattern observed. Experimental data as provided in FIG. 1 indicates expression in the infant brain and placenta. The art has clearly established the commercial importance of members of this family of proteins and proteins that have expression patterns similar to that of the present gene. Some of the more specific features of the peptides of the present invention, and the uses thereof, are described herein, particularly in the Background of the Invention and in the annotation provided in the Figures, and/or are known within the art for each of the known thrombospondin family or subfamily of secreted proteins.

[0021] Specific Embodiments

[0022] Peptide Molecules

[0023] The present invention provides nucleic acid sequences that encode protein molecules that have been identified as being members of the secreted protein family of proteins and are related to the thrombospondin secreted protein subfamily (protein sequences are provided in FIG. 2, transcript/cDNA sequences are provided in FIG. 1 and genomic sequences are provided in FIG. 3). The peptide sequences provided in FIG. 2, as well as the obvious variants described herein, particularly allelic variants as identified herein and using the information in FIG. 3, will be referred herein as the secreted peptides of the present invention, secreted peptides, or peptides/proteins of the present invention.

[0024] The present invention provides isolated peptide and protein molecules that consist of, consist essentially of, or comprise the amino acid sequences of the secreted peptides disclosed in the FIG. 2, (encoded by the nucleic acid molecule shown in FIG. 1, transcript/cDNA or FIG. 3, genomic sequence), as well as all obvious variants of these peptides that are within the art to make and use. Some of these variants are described in detail below.

[0025] As used herein, a peptide is said to be “isolated” or “purified” when it is substantially free of cellular material or free of chemical precursors or other chemicals. The peptides of the present invention can be purified to homogeneity or other degrees of purity. The level of purification will be based on the intended use. The critical feature is that the preparation allows for the desired function of the peptide, even if in the presence of considerable amounts of other components (the features of an isolated nucleic acid molecule is discussed below).

[0026] In some uses, “substantially free of cellular material” includes preparations of the peptide having less than about 30% (by dry weight) other proteins (i.e., contaminating protein), less than about 20% other proteins, less than about 10% other proteins, or less than about 5% other proteins. When the peptide is recombinantly produced, it can also be substantially free of culture medium, i.e., culture medium represents less than about 20% of the volume of the protein preparation.

[0027] The language “substantially free of chemical precursors or other chemicals” includes preparations of the peptide in which it is separated from chemical precursors or other chemicals that are involved in its synthesis. In one embodiment, the language “substantially free of chemical precursors or other chemicals” includes preparations of the secreted peptide having less than about 30% (by dry weight) chemical precursors or other chemicals, less than about 20% chemical precursors or other chemicals, less than about 10% chemical precursors or other chemicals, or less than about 5% chemical precursors or other chemicals.

[0028] The isolated secreted peptide can be purified from cells that naturally express it, purified from cells that have been altered to express it (recombinant), or synthesized using known protein synthesis methods. Experimental data as provided in FIG. 1 indicates expression in the infant brain and placenta. For example, a nucleic acid molecule encoding the secreted peptide is cloned into an expression vector, the expression vector introduced into a host cell and the protein expressed in the host cell. The protein can then be isolated from the cells by an appropriate purification scheme using standard protein purification techniques. Many of these techniques are described in detail below.

[0029] Accordingly, the present invention provides proteins that consist of the amino acid sequences provided in FIG. 2 (SEQ ID NO:2), for example, proteins encoded by the transcript/cDNA nucleic acid sequences shown in FIG. 1 (SEQ ID NO:1) and the genomic sequences provided in FIG. 3 (SEQ ID NO:3). The amino acid sequence of such a protein is provided in FIG. 2. A protein consists of an amino acid sequence when the amino acid sequence is the final amino acid sequence of the protein.

[0030] The present invention further provides proteins that consist essentially of the amino acid sequences provided in FIG. 2 (SEQ ID NO:2), for example, proteins encoded by the transcript/cDNA nucleic acid sequences shown in FIG. 1 (SEQ ID NO:1) and the genomic sequences provided in FIG. 3 (SEQ ID NO:3). A protein consists essentially of an amino acid sequence when such an amino acid sequence is present with only a few additional amino acid residues, for example from about 1 to about 100 or so additional residues, typically from 1 to about 20 additional residues in the final protein.

[0031] The present invention further provides proteins that comprise the amino acid sequences provided in FIG. 2 (SEQ ID NO:2), for example, proteins encoded by the transcript/cDNA nucleic acid sequences shown in FIG. 1 (SEQ ID NO:1) and the genomic sequences provided in FIG. 3 (SEQ ID NO:3). A protein comprises an amino acid sequence when the amino acid sequence is at least part of the final amino acid sequence of the protein. In such a fashion, the protein can be only the peptide or have additional amino acid molecules, such as amino acid residues (contiguous encoded sequence) that are naturally associated with it or heterologous amino acid residues/peptide sequences. Such a protein can have a few additional amino acid residues or can comprise several hundred or more additional amino acids. The preferred classes of proteins that are comprised of the secreted peptides of the present invention are the naturally occurring mature proteins. A brief description of how various types of these proteins can be made/isolated is provided below.

[0032] The secreted peptides of the present invention can be attached to heterologous sequences to form chimeric or fusion proteins. Such chimeric and fusion proteins comprise a secreted peptide operatively linked to a heterologous protein having an amino acid sequence not substantially homologous to the secreted peptide. “Operatively linked” indicates that the secreted peptide and the heterologous protein are fused in-frame. The heterologous protein can be fused to the N-terminus or C-terminus of the secreted peptide.

[0033] In some uses, the fusion protein does not affect the activity of the secreted peptide per se. For example, the fusion protein can include, but is not limited to, enzymatic fusion proteins, for example beta-galactosidase fusions, yeast two-hybrid GAL fusions, poly-His fusions, MYC-tagged, HI-tagged and Ig fusions. Such fusion proteins, particularly poly-His fusions, can facilitate the purification of recombinant secreted peptide. In certain host cells (e.g., mammalian host cells), expression and/or secretion of a protein can be increased by using a heterologous signal sequence.

[0034] A chimeric or fusion protein can be produced by standard recombinant DNA techniques. For example, DNA fragments coding for the different protein sequences are ligated together in-frame in accordance with conventional techniques. In another embodiment, the fusion gene can be synthesized by conventional techniques including automated DNA synthesizers. Alternatively, PCR amplificafion of gene fragments can be carried out using anchor primers which give rise to complementary overhangs between two consecutive gene fragments which can subsequently be annealed and re-amplified to generate a chimeric gene sequence (see Ausubel et al., Current Protocols in Molecular Biology, 1992). Moreover, many expression vectors are commercially available that already encode a fusion moiety (e.g., a GST protein). A secreted peptide-encoding nucleic acid can be cloned into such an expression vector such that the fusion moiety is linked in-frame to the secreted peptide.

[0035] As mentioned above, the present invention also provides and enables obvious variants of the amino acid sequence of the proteins of the present invention, such as naturally occurring mature forms of the peptide, allelic/sequence variants of the peptides, non-naturally occurring recombinantly derived variants of the peptides, and orthologs and paralogs of the peptides. Such variants can readily be generated using art-known techniques in the fields of recombinant nucleic acid technology and protein biochemistry. It is understood, however, that variants exclude any amino acid sequences disclosed prior to the invention.

[0036] Such variants can readily be identified/made using molecular techniques and the sequence information disclosed herein. Further, such variants can readily be distinguished from other peptides based on sequence and/or structural homology to the secreted peptides of the present invention. The degree of homology/identity present will be based primarily on whether the peptide is a functional variant or non-functional variant, the amount of divergence present in the paralog family and the evolutionary distance between the orthologs.

[0037] To determine the percent identity of two amino acid sequences or two nucleic acid sequences, the sequences are aligned for optimal comparison purposes (e.g., gaps can be introduced in one or both of a first and a second amino acid or nucleic acid sequence for optimal alignment and non-homologous sequences can be disregarded for comparison purposes). In a preferred embodiment, at least 30%, 40%, 50%, 60%, 70%, 80%, or 90% or more of the length of a reference sequence is aligned for comparison purposes. The amino acid residues or nucleotides at corresponding amino acid positions or nucleotide positions are then compared. When a position in the first sequence is occupied by the same amino acid residue or nucleotide as the corresponding position in the second sequence, then the molecules are identical at that position (as used herein amino acid or nucleic acid “identity” is equivalent to amino acid or nucleic acid “homology”). The percent identity between the two sequences is a function of the number of identical positions shared by the sequences, taking into account the number of gaps, and the length of each gap, which need to be introduced for optimal alignment of the two sequences.

[0038] The comparison of sequences and determination of percent identity and similarity between two sequences can be accomplished using a mathematical algorithm. (Computational Molecular Biology, Lesk, A. M., ed., Oxford University Press, New York, 1988; Biocomputing: Informatics and Genome Projects, Smith, D. W., ed., Academic Press, New York, 1993; Computer Analysis of Sequence Data, Part 1, Griffin, A. M., and Griffin, H. G., eds., Humana Press, New Jersey, 1994; Sequence Analysis in Molecular Biology, von Heinje, G., Academic Press, 1987; and Sequence Analysis Primer, Gribskov, M. and Devereux, J., eds., M Stockton Press, New York, 1991). In a preferred embodiment, the percent identity between two amino acid sequences is determined using the Needleman and Wunsch (J. Mol. Biol. (48):444-453 (1970)) algorithm which has been incorporated into the GAP program in the GCG software package (available at http://www.gcg.com), using either a Blossom 62 matrix or a PAM250 matrix, and a gap weight of 16, 14, 12, 10, 8, 6, or 4 and a length weight of 1, 2, 3, 4, 5, or 6. In yet another preferred embodiment, the percent identity between two nucleotide sequences is determined using the GAP program in the GCG software package (Devereux, J., et al., Nucleic Acids Res. 12(1):387 (1984)) (available at http://www.gcg.com), using a NWSgapdna.CMP matrix and a gap weight of 40, 50, 60, 70, or 80 and a length weight of 1, 2, 3, 4, 5, or 6. In another embodiment, the percent identity between two amino acid or nucleotide sequences is determined using the algorithm of E. Myers and W. Miller (CABIOS, 4:11-17 (1989)) which has been incorporated into the ALIGN program (version 2.0), using a PAM120 weight residue table, a gap length penalty of 12 and a gap penalty of 4.

[0039] The nucleic acid and protein sequences of the present invention can further be used as a “query sequence” to perform a search against sequence databases to, for example, identify other family members or related sequences. Such searches can be performed using the NBLAST and XBLAST programs (version 2.0) of Altschul, et al. (J. Mol. Biol. 215:403-10 (1990)). BLAST nucleotide searches can be performed with the NBLAST program, score=100, wordlength=12 to obtain nucleotide sequences homologous to the nucleic acid molecules of the invention. BLAST protein searches can be performed with the XBLAST program, score=50, wordlength=3 to obtain amino acid sequences homologous to the proteins of the invention. To obtain gapped alignments for comparison purposes, Gapped BLAST can be utilized as described in Altschul et al. (Nucleic Acids Res. 25(17):3389-3402 (1997)). When utilizing BLAST and gapped BLAST programs, the default parameters of the respective programs (e.g., XBLAST and NBLAST) can be used.

[0040] Full-length pre-processed forms, as well as mature processed forms, of proteins that comprise one of the peptides of the present invention can readily be identified as having complete sequence identity to one of the secreted peptides of the present invention as well as being encoded by the same genetic locus as the secreted peptide provided herein. As indicated by the data presented in FIG. 3, the map position was determined to be on chromosome 8 by ePCR.

[0041] Allelic variants of a secreted peptide can readily be identified as being a human protein having a high degree (significant) of sequence homology/identity to at least a portion of the secreted peptide as well as being encoded by the same genetic locus as the secreted peptide provided herein. Genetic locus can readily be determined based on the genomic information provided in FIG. 3, such as the genomic sequence mapped to the reference human. As indicated by the data presented in FIG. 3, the map position was determined to be on chromosome 8 by ePCR. As used herein, two proteins (or a region of the proteins) have significant homology when the amino acid sequences are typically at least about 70-80%, 80-90%, and more typically at least about 90-95% or more homologous. A significantly homologous amino acid sequence, according to the present invention, will be encoded by a nucleic acid sequence that will hybridize to a secreted peptide encoding nucleic acid molecule under stringent conditions as more fully described below.

[0042]FIG. 3 provides information on SNPs that have been found in the gene encoding the secreted protein of the present invention. SNPs were identified at 137 different nucleotide positions in introns.Such SNPs in introns may affect control/regulatory elements.

[0043] Paralogs of a secreted peptide can readily be identified as having some degree of significant sequence homology/identity to at least a portion of the secreted peptide, as being encoded by a gene from humans, and as having similar activity or function. Two proteins will typically be considered paralogs when the amino acid sequences are typically at least about 60% or greater, and more typically at least about 70% or greater homology through a given region or domain. Such paralogs will be encoded by a nucleic acid sequence that will hybridize to a secreted peptide encoding nucleic acid molecule under moderate to stringent conditions as more fully described below.

[0044] Orthologs of a secreted peptide can readily be identified as having some degree of significant sequence homology/identity to at least a portion of the secreted peptide as well as being encoded by a gene from another organism. Preferred orthologs will be isolated from mammals, preferably primates, for the development of human therapeutic targets and agents. Such orthologs will be encoded by a nucleic acid sequence that will hybridize to a secreted peptide encoding nucleic acid molecule under moderate to stringent conditions, as more fully described below, depending on the degree of relatedness of the two organisms yielding the proteins.

[0045] Non-naturally occurring variants of the secreted peptides of the present invention can readily be generated using recombinant techniques. Such variants include, but are not limited to deletions, additions and substitutions in the amino acid sequence of the secreted peptide. For example, one class of substitutions are conserved amino acid substitution. Such substitutions are those that substitute a given amino acid in a secreted peptide by another amino acid of like characteristics. Typically seen as conservative substitutions are the replacements, one for another, among the aliphatic amino acids Ala, Val, Leu, and Ile; interchange of the hydroxyl residues Ser and Thr; exchange of the acidic residues Asp and Glu; substitution between the amide residues Asn and Gln; exchange of the basic residues Lys and Arg; and replacements among the aromatic residues Phe and Tyr. Guidance concerning which amino acid changes are likely to be phenotypically silent are found in Bowie et al., Science 247:1306-1310 (1990).

[0046] Variant secreted peptides can be fully functional or can lack function in one or more activities, e.g. ability to bind substrate, ability to phosphorylate substrate, ability to mediate signaling, etc. Fully functional variants typically contain only conservative variation or variation in non-critical residues or in non-critical regions. FIG. 2 provides the result of protein analysis and can be used to identify critical domains/regions. Functional variants can also contain substitution of similar amino acids that result in no change or an insignificant change in function. Alternatively, such substitutions may positively or negatively affect function to some degree.

[0047] Non-functional variants typically contain one or more non-conservative amino acid substitutions, deletions, insertions, inversions, or truncation or a substitution, insertion, inversion, or deletion in a critical residue or critical region.

[0048] Amino acids that are essential for function can be identified by methods known in the art, such as site-directed mutagenesis or alanine-scanning mutagenesis (Cunningham et al., Science 244:1081-1085 (1989)), particularly using the results provided in FIG. 2. The latter procedure introduces single alanine mutations at every residue in the molecule. The resulting mutant molecules are then tested for biological activity such as secreted protein activity or in assays such as an in vitro proliferative activity. Sites that are critical for binding partner/substrate binding can also be determined by structural analysis such as crystallization, nuclear magnetic resonance or photoaffinity labeling (Smith et al., J Mol. Biol. 224:899-904 (1992); de Vos et al. Science 255:306-312 (1992)).

[0049] The present invention further provides fragments of the secreted peptides, in addition to proteins and peptides that comprise and consist of such fragments, particularly those comprising the residues identified in FIG. 2. The fragments to which the invention pertains, however, are not to be construed as encompassing fragments that may be disclosed publicly prior to the present invention.

[0050] As used herein, a fragment comprises at least 8, 10, 12, 14, 16, or more contiguous amino acid residues from a secreted peptide. Such fragments can be chosen based on the ability to retain one or more of the biological activities of the secreted peptide or could be chosen for the ability to perform a function, e.g. bind a substrate or act as an immunogen. Particularly important fragments are biologically active fragments, peptides that are, for example, about 8 or more amino acids in length. Such fragments will typically comprise a domain or motif of the secreted peptide, e.g., active site or a substrate-binding domain. Further, possible fragments include, but are not limited to, domain or motif containing fragments, soluble peptide fragments, and fragments containing immunogenic structures. Predicted domains and functional sites are readily identifiable by computer programs well known and readily available to those of skill in the art (e.g., PROSITE analysis). The results of one such analysis are provided in FIG. 2.

[0051] Polypeptides often contain amino acids other than the 20 amino acids commonly referred to as the 20 naturally occurring amino acids. Further, many amino acids, including the terminal amino acids, may be modified by natural processes, such as processing and other post-translational modifications, or by chemical modification techniques well known in the art. Common modifications that occur naturally in secreted peptides are described in basic texts, detailed monographs, and the research literature, and they are well known to those of skill in the art (some of these features are identified in FIG. 2).

[0052] Known modifications include, but are not limited to, acetylation, acylation, ADP-ribosylation, amidation, covalent attachment of flavin, covalent attachment of a heme moiety, covalent attachment of a nucleotide or nucleotide derivative, covalent attachment of a lipid or lipid derivative, covalent attachment of phosphotidylinositol, cross-linking, cyclization, disulfide bond formation, demethylation, formation of covalent crosslinks, formation of cystine, formation of pyroglutamate, formylation, gamma carboxylation, glycosylation, GPI anchor formation, hydroxylation, iodination, methylation, myristoylation, oxidation, proteolytic processing, phosphorylation, prenylation, racemization, selenoylation, sulfation, transfer-RNA mediated addition of amino acids to proteins such as arginylation, and ubiquitination.

[0053] Such modifications are well known to those of skill in the art and have been described in great detail in the scientific literature. Several particularly common modifications, glycosylation, lipid attachment, sulfation, gamma-carboxylation of glutamic acid residues, hydroxylation and ADP-ribosylation, for instance, are described in most basic texts, such as Proteins—Structure and Molecular Properties, 2nd Ed., T. E. Creighton, W. H. Freeman and Company, New York (1993). Many detailed reviews are available on this subject, such as by Wold, F., Posttranslational Covalent Modification of Proteins, B. C. Johnson, Ed., Academic Press, New York 1-12 (1983); Seifter et al. (Meth. Enzymol. 182: 626-646 (1990)) and Rattan et al. (Ann. N. Y Acad. Sci. 663:48-62 (1992)).

[0054] Accordingly, the secreted peptides of the present invention also encompass derivatives or analogs in which a substituted amino acid residue is not one encoded by the genetic code, in which a substituent group is included, in which the mature secreted peptide is fused with another compound, such as a compound to increase the half-life of the secreted peptide (for example, polyethylene glycol), or in which the additional amino acids are fused to the mature secreted peptide, such as a leader or secretory sequence or a sequence for purification of the mature secreted peptide or a pro-protein sequence.

[0055] Protein/Peptide Uses

[0056] The proteins of the present invention can be used in substantial and specific assays related to the functional information provided in the Figures; to raise antibodies or to elicit another immune response; as a reagent (including the labeled reagent) in assays designed to quantitatively determine levels of the protein (or its binding partner or ligand) in biological fluids; and as markers for tissues in which the corresponding protein is preferentially expressed (either constitutively or at a particular stage of tissue differentiation or development or in a disease state). Where the protein binds or potentially binds to another protein or ligand (such as, for example, in a secreted protein-effector protein interaction or secreted protein-ligand interaction), the protein can be used to identify the binding partner/ligand so as to develop a system to identify inhibitors of the binding interaction. Any or all of these uses are capable of being developed into reagent grade or kit format for commercialization as commercial products.

[0057] Methods for performing the uses listed above are well known to those skilled in the art. References disclosing such methods include “Molecular Cloning: A Laboratory Manual”, 2d ed., Cold Spring Harbor Laboratory Press, Sambrook, J., E. F. Fritsch and T. Maniatis eds., 1989, and “Methods in Enzymology: Guide to Molecular Cloning Techniques”, Academic Press, Berger, S. L. and A. R. Kimmel eds., 1987.

[0058] The potential uses of the peptides of the present invention are based primarily on the source of the protein as well as the class/action of the protein. For example, secreted proteins isolated from humans and their human/mammalian orthologs serve as targets for identifying agents for use in mammalian therapeutic applications, e.g. a human drug, particularly in modulating a biological or pathological response in a cell or tissue that expresses the secreted protein. Experimental data as provided in FIG. 1 indicates that secreted proteins of the present invention are expressed in the infant brain and placenta detected by a virtual northern blot. A large percentage of pharmaceutical agents are being developed that modulate the activity of secreted proteins, particularly members of the thrombospondin subfamily (see Background of the Invention). The structural and functional information provided in the Background and Figures provide specific and substantial uses for the molecules of the present invention, particularly in combination with the expression information provided in FIG. 1. Experimental data as provided in FIG. 1 indicates expression in the infant brain and placenta. Such uses can readily be determined using the information provided herein, that which is known in the art, and routine experimentation.

[0059] The proteins of the present invention (including variants and fragments that may have been disclosed prior to the present invention) are useful for biological assays related to secreted proteins that are related to members of the thrombospondin subfamily. Such assays involve any of the known secreted protein functions or activities or properties useful for diagnosis and treatment of secreted protein-related conditions that are specific for the subfamily of secreted proteins that the one of the present invention belongs to, particularly in cells and tissues that express the secreted protein. Experimental data as provided in FIG. 1 indicates that secreted proteins of the present invention are expressed in the infant brain and placenta detected by a virtual northern blot.

[0060] The proteins of the present invention are also useful in drug screening assays, in cell-based or cell-free systems. Cell-based systems can be native, i.e., cells that normally express the secreted protein, as a biopsy or expanded in cell culture. Experimental data as provided in FIG. 1 indicates expression in the infant brain and placenta. In an alternate embodiment, cell-based assays involve recombinant host cells expressing the secreted protein.

[0061] The polypeptides can be used to identify compounds that modulate secreted protein activity of the protein in its natural state or an altered form that causes a specific disease or pathology associated with the secreted protein. Both the secreted proteins of the present invention and appropriate variants and fragments can be used in high-throughput screens to assay candidate compounds for the ability to bind to the secreted protein. These compounds can be further screened against a functional secreted protein to determine the effect of the compound on the secreted protein activity. Further, these compounds can be tested in animal or invertebrate systems to determine activity/effectiveness. Compounds can be identified that activate (agonist) or inactivate (antagonist) the secreted protein to a desired degree.

[0062] Further, the proteins of the present invention can be used to screen a compound for the ability to stimulate or inhibit interaction between the secreted protein and a molecule that normally interacts with the secreted protein, e.g. a substrate or a component of the signal pathway that the secreted protein normally interacts (for example, another secreted protein). Such assays typically include the steps of combining the secreted protein with a candidate compound under conditions that allow the secreted protein, or fragment, to interact with the target molecule, and to detect the formation of a complex between the protein and the target or to detect the biochemical consequence of the interaction with the secreted protein and the target.

[0063] Candidate compounds include, for example, 1) peptides such as soluble peptides, including Ig-tailed fusion peptides and members of random peptide libraries (see, e.g., Lam et al., Nature 354:82-84 (1991); Houghten et al., Nature 354:84-86 (1991)) and combinatorial chemistry-derived molecular libraries made of D- and/or L-configuration amino acids; 2) phosphopeptides (e.g., members of random and partially degenerate, directed phosphopeptide libraries, see, e.g., Songyang et al., Cell 72:767-778 (1993)); 3) antibodies (e.g., polyclonal, monoclonal, humanized, anti-idiotypic, chimeric, and single chain antibodies as well as Fab, F(ab′)₂, Fab expression library fragments, and epitope-binding fragments of antibodies); and 4) small organic and inorganic molecules (e.g., molecules obtained from combinatorial and natural product libraries).

[0064] One candidate compound is a soluble fragment of the receptor that competes for substrate binding. Other candidate compounds include mutant secreted proteins or appropriate fragments containing mutations that affect secreted protein function and thus compete for substrate. Accordingly, a fragment that competes for substrate, for example with a higher affinity, or a fragment that binds substrate but does not allow release, is encompassed by the invention.

[0065] Any of the biological or biochemical functions, mediated by the secreted protein can be used as an endpoint assay. These include all of the biochemical or biochemical/biological events described herein, in the references cited herein, incorporated by reference for these endpoint assay targets, and other functions known to those of ordinary skill in the art or that can be readily identified using the information provided in the Figures, particularly FIG. 2. Specifically, a biological function of a cell or tissues that expresses the secreted protein can be assayed. Experimental data as provided in FIG. 1 indicates that secreted proteins of the present invention are expressed in the infant brain and placenta detected by a virtual northern blot.

[0066] Binding and/or activating compounds can also be screened by using chimeric secreted proteins in which the amino terminal extracellular domain, or parts thereof, the entire transmembrane domain or subregions, such as any of the seven transmembrane segments or any of the intracellular or extracellular loops and the carboxy terminal intracellular domain, or parts thereof, can be replaced by heterologous domains or subregions. For example, a substrate-binding region can be used that interacts with a different substrate then that which is recognized by the native secreted protein. Accordingly, a different set of signal transduction components is available as an end-point assay for activation. This allows for assays to be performed in other than the specific host cell from which the secreted protein is derived.

[0067] The proteins of the present invention are also useful in competition binding assays in methods designed to discover compounds that interact with the secreted protein (e.g. binding partners and/or ligands). Thus, a compound is exposed to a secreted protein polypeptide under conditions that allow the compound to bind or to otherwise interact with the polypeptide. Soluble secreted protein polypeptide is also added to the mixture. If the test compound interacts with the soluble secreted protein polypeptide, it decreases the amount of complex formed or activity from the secreted protein target. This type of assay is particularly useful in cases in which compounds are sought that interact with specific regions of the secreted protein. Thus, the soluble polypeptide that competes with the target secreted protein region is designed to contain peptide sequences corresponding to the region of interest.

[0068] To perform cell free drug screening assays, it is sometimes desirable to immobilize either the secreted protein, or fragment, or its target molecule to facilitate separation of complexes from uncomplexed forms of one or both of the proteins, as well as to accommodate automation of the assay.

[0069] Techniques for immobilizing proteins on matrices can be used in the drug screening assays. In one embodiment, a fusion protein can be provided which adds a domain that allows the protein to be bound to a matrix. For example, glutathione-S-transferase fusion proteins can be adsorbed onto glutathione sepharose beads (Sigma Chemical, St. Louis, Mo.) or glutathione derivatized microtitre plates, which are then combined with the cell lysates (e.g., ³⁵S-labeled) and the candidate compound, and the mixture incubated under conditions conducive to complex formation (e.g., at physiological conditions for salt and pH). Following incubation, the beads are washed to remove any unbound label, and the matrix immobilized and radiolabel determined directly, or in the supernatant after the complexes are dissociated. Alternatively, the complexes can be dissociated from the matrix, separated by SDS-PAGE, and the level of secreted protein-binding protein found in the bead fraction quantitated from the gel using standard electrophoretic techniques. For example, either the polypeptide or its target molecule can be immobilized utilizing conjugation of biotin and streptavidin using techniques well known in the art. Alternatively, antibodies reactive with the protein but which do not interfere with binding of the protein to its target molecule can be derivatized to the wells of the plate, and the protein trapped in the wells by antibody conjugation. Preparations of a secreted protein-binding protein and a candidate compound are incubated in the secreted protein-presenting wells and the amount of complex trapped in the well can be quantitated. Methods for detecting such complexes, in addition to those described above for the GST-immobilized complexes, include immunodetection of complexes using antibodies reactive with the secreted protein target molecule, or which are reactive with secreted protein and compete with the target molecule, as well as enzyme-linked assays which rely on detecting an enzymatic activity associated with the target molecule.

[0070] Agents that modulate one of the secreted proteins of the present invention can be identified using one or more of the above assays, alone or in combination. It is generally preferable to use a cell-based or cell free system first and then confirm activity in an animal or other model system. Such model systems are well known in the art and can readily be employed in this context.

[0071] Modulators of secreted protein activity identified according to these drug screening assays can be used to treat a subject with a disorder mediated by the secreted protein pathway, by treating cells or tissues that express the secreted protein. Experimental data as provided in FIG. 1 indicates expression in the infant brain and placenta. These methods of treatment include the steps of administering a modulator of secreted protein activity in a pharmaceutical composition to a subject in need of such treatment, the modulator being identified as described herein.

[0072] In yet another aspect of the invention, the secreted proteins can be used as “bait proteins” in a two-hybrid assay or three-hybrid assay (see, e.g., U.S. Pat. No. 5,283,317; Zervos et al. (1993) Cell 72:223-232; Madura et al. (1993) J. Biol. Chem. 268:12046-12054; Bartel et al. (1993) Biotechniques 14:920-924; Iwabuchi et al. (1993) Oncogene 8:1693-1696; and Brent WO94/10300), to identify other proteins, which bind to or interact with the secreted protein and are involved in secreted protein activity.

[0073] The two-hybrid system is based on the modular nature of most transcription factors, which consist of separable DNA-binding and activation domains. Briefly, the assay utilizes two different DNA constructs. In one construct, the gene that codes for a secreted protein is fused to a gene encoding the DNA binding domain of a known transcription factor (e.g., GAL-4). In the other construct, a DNA sequence, from a library of DNA sequences, that encodes an unidentified protein (“prey” or “sample”) is fused to a gene that codes for the activation domain of the known transcription factor. If the “bait” and the “prey” proteins are able to interact, in vivo, forming a secreted protein-dependent complex, the DNA-binding and activation domains of the transcription factor are brought into close proximity. This proximity allows transcription of a reporter gene (e.g., LacZ) which is operably linked to a transcriptional regulatory site responsive to the transcription factor. Expression of the reporter gene can be detected and cell colonies containing the functional transcription factor can be isolated and used to obtain the cloned gene which encodes the protein which interacts with the secreted protein.

[0074] This invention further pertains to novel agents identified by the above-described screening assays. Accordingly, it is within the scope of this invention to further use an agent identified as described herein in an appropriate animal model. For example, an agent identified as described herein (e.g., a secreted protein-modulating agent, an antisense secreted protein nucleic acid molecule, a secreted protein-specific antibody, or a secreted protein-binding partner) can be used in an animal or other model to determine the efficacy, toxicity, or side effects of treatment with such an agent. Alternatively, an agent identified as described herein can be used in an animal or other model to determine the mechanism of action of such an agent. Furthermore, this invention pertains to uses of novel agents identified by the above-described screening assays for treatments as described herein.

[0075] The secreted proteins of the present invention are also useful to provide a target for diagnosing a disease or predisposition to disease mediated by the peptide. Accordingly, the invention provides methods for detecting the presence, or levels of, the protein (or encoding mRNA) in a cell, tissue, or organism. Experimental data as provided in FIG. 1 indicates expression in the infant brain and placenta. The method involves contacting a biological sample with a compound capable of interacting with the secreted protein such that the interaction can be detected. Such an assay can be provided in a single detection format or a multi-detection format such as an antibody chip array.

[0076] One agent for detecting a protein in a sample is an antibody capable of selectively binding to protein. A biological sample includes tissues, cells and biological fluids isolated from a subject, as well as tissues, cells and fluids present within a subject.

[0077] The peptides of the present invention also provide targets for diagnosing active protein activity, disease, or predisposition to disease, in a patient having a variant peptide, particularly activities and conditions that are known for other members of the family of proteins to which the present one belongs. Thus, the peptide can be isolated from a biological sample and assayed for the presence of a genetic mutation that results in aberrant peptide. This includes amino acid substitution, deletion, insertion, rearrangement, (as the result of aberrant splicing events), and inappropriate post-translational modification. Analytic methods include altered electrophoretic mobility, altered tryptic peptide digest, altered secreted protein activity in cell-based or cell-free assay, alteration in substrate or antibody-binding pattern, altered isoelectric point, direct amino acid sequencing, and any other of the known assay techniques useftul for detecting mutations in a protein.

[0078] Such an assay can be provided in a single detection format or a multi-detection format such as an antibody chip array.

[0079] In vitro techniques for detection of peptide include enzyme linked immunosorbent assays (ELISAs), Western blots, immunoprecipitations and immunofluorescence using a detection reagent, such as an antibody or protein binding agent. Alternatively, the peptide can be detected in vivo in a subject by introducing into the subject a labeled anti-peptide antibody or other types of detection agent. For example, the antibody can be labeled with a radioactive marker whose presence and location in a subject can be detected by standard imaging techniques. Particularly useful are methods that detect the allelic variant of a peptide expressed in a subject and methods which detect fragments of a peptide in a sample.

[0080] The peptides are also useful in pharmacogenomic analysis. Pharmacogenomics deal with clinically significant hereditary variations in the response to drugs due to altered drug disposition and abnormal action in affected persons. See, e.g., Eichelbaum, M. (Clin. Exp. Pharmacol. Physiol. 23(10-11):983-985 (1996)), and Linder, M. W. (Clin. Chem. 43(2):254-266 (1997)). The clinical outcomes of these variations result in severe toxicity of therapeutic drugs in certain individuals or therapeutic failure of drugs in certain individuals as a result of individual variation in metabolism. Thus, the genotype of the individual can determine the way a therapeutic compound acts on the body or the way the body metabolizes the compound. Further, the activity of drug metabolizing enzymes effects both the intensity and duration of drug action. Thus, the pharmacogenomics of the individual permit the selection of effective compounds and effective dosages of such compounds for prophylactic or therapeutic treatment based on the individual's genotype. The discovery of genetic polymorphisms in some drug metabolizing enzymes has explained why some patients do not obtain the expected drug effects, show an exaggerated drug effect, or experience serious toxicity from standard drug dosages. Polymorphisms can be expressed in the phenotype of the extensive metabolizer and the phenotype of the poor metabolizer. Accordingly, genetic polymorphism may lead to allelic protein variants of the secreted protein in which one or more of the secreted protein functions in one population is different from those in another population. The peptides thus allow a target to ascertain a genetic predisposition that can affect treatment modality. Thus, in a ligand-based treatment, polymorphism may give rise to amino terminal extracellular domains and/or other substrate-binding regions that are more or less active in substrate binding, and secreted protein activation. Accordingly, substrate dosage would necessarily be modified to maximize the therapeutic effect within a given population containing a polymorphism. As an alternative to genotyping, specific polymorphic peptides could be identified.

[0081] The peptides are also useful for treating a disorder characterized by an absence of, inappropriate, or unwanted expression of the protein. Experimental data as provided in FIG. 1 indicates expression in the infant brain and placenta. Accordingly, methods for treatment include the use of the secreted protein or fragments.

[0082] Antibodies

[0083] The invention also provides antibodies that selectively bind to one of the peptides of the present invention, a protein comprising such a peptide, as well as variants and fragments thereof. As used herein, an antibody selectively binds a target peptide when it binds the target peptide and does not significantly bind to unrelated proteins. An antibody is still considered to selectively bind a peptide even if it also binds to other proteins that are not substantially homologous with the target peptide so long as such proteins share homology with a fragment or domain of the peptide target of the antibody. In this case, it would be understood that antibody binding to the peptide is still selective despite some degree of cross-reactivity.

[0084] As used herein, an antibody is defined in terms consistent with that recognized within the art: they are multi-subunit proteins produced by a mammalian organism in response to an antigen challenge. The antibodies of the present invention include polyclonal antibodies and monoclonal antibodies, as well as fragments of such antibodies, including, but not limited to, Fab or F(ab′)2, and Fv fragments.

[0085] Many methods are known for generating and/or identifying antibodies to a given target peptide. Several such methods are described by Harlow, Antibodies, Cold Spring Harbor Press, (1989).

[0086] In general, to generate antibodies, an isolated peptide is used as an immunogen and is administered to a mammalian organism, such as a rat, rabbit or mouse. The full-length protein, an antigenic peptide fragment or a fusion protein can be used. Particularly important fragments are those covering functional domains, such as the domains identified in FIG. 2, and domain of sequence homology or divergence amongst the family, such as those that can readily be identified using protein alignment methods and as presented in the Figures.

[0087] Antibodies are preferably prepared from regions or discrete fragments of the secreted proteins. Antibodies can be prepared from any region of the peptide as described herein.

[0088] However, preferred regions will include those involved in function/activity and/or secreted protein/binding partner interaction. FIG. 2 can be used to identify particularly important regions while sequence alignment can be used to identify conserved and unique sequence fragments.

[0089] An antigenic fragment will typically comprise at least 8 contiguous amino acid residues. The antigenic peptide can comprise, however, at least 10, 12, 14, 16 or more amino acid residues. Such fragments can be selected on a physical property, such as fragments correspond to regions that are located on the surface of the protein, e.g., hydrophilic regions or can be selected based on sequence uniqueness (see FIG. 2).

[0090] Detection on an antibody of the present invention can be facilitated by coupling (i.e., physically linking) the antibody to a detectable substance. Examples of detectable substances include various enzymes, prosthetic groups, fluorescent materials, luminescent materials, bioluminescent materials, and radioactive materials. Examples of suitable enzymes include horseradish peroxidase, alkaline phosphatase, β-galactosidase, or acetylcholinesterase; examples of suitable prosthetic group complexes include streptavidin/biotin and avidin/biotin; examples of suitable fluorescent materials include umbelliferone, fluorescein, fluorescein isothiocyanate, rhodamine, dichlorotriazinylamine fluorescein, dansyl chloride or phycoerythrin; an example of a luminescent material includes luminol; examples of bioluminescent materials include luciferase, luciferin, and aequorin, and examples of suitable radioactive material include ¹²⁵I, ¹³¹I, ³⁵S or ³H.

[0091] Antibody Uses

[0092] The antibodies can be used to isolate one of the proteins of the present invention by standard techniques, such as affinity chromatography or immunoprecipitation. The antibodies can facilitate the purification of the natural protein from cells and recombinantly produced protein expressed in host cells. In addition, such antibodies are useful to detect the presence of one of the proteins of the present invention in cells or tissues to determine the pattern of expression of the protein among various tissues in an organism and over the course of normal development. Experimental data as provided in FIG. 1 indicates that secreted proteins of the present invention are expressed in the infant brain and placenta detected by a virtual northern blot. Further, such antibodies can be used to detect protein in situ, in vitro, or in a cell lysate or supernatant in order to evaluate the abundance and pattern of expression. Also, such antibodies can be used to assess abnormal tissue distribution or abnormal expression during development or progression of a biological condition. Antibody detection of circulating fragments of the full length protein can be used to identify turnover.

[0093] Further, the antibodies can be used to assess expression in disease states such as in active stages of the disease or in an individual with a predisposition toward disease related to the protein's function. When a disorder is caused by an inappropriate tissue distribution, developmental expression, level of expression of the protein, or expressed/processed form, the antibody can be prepared against the normal protein. Experimental data as provided in FIG. 1 indicates expression in the infant brain and placenta. If a disorder is characterized by a specific mutation in the protein, antibodies specific for this mutant protein can be used to assay for the presence of the specific mutant protein.

[0094] The antibodies can also be used to assess normal and aberrant subcellular localization of cells in the various tissues in an organism. Experimental data as provided in FIG. 1 indicates expression in the infant brain and placenta. The diagnostic uses can be applied, not only in genetic testing, but also in monitoring a treatment modality. Accordingly, where treatment is ultimately aimed at correcting expression level or the presence of aberrant sequence and aberrant tissue distribution or developmental expression, antibodies directed against the protein or relevant fragments can be used to monitor therapeutic efficacy.

[0095] Additionally, antibodies are useful in pharmacogenomic analysis. Thus, antibodies prepared against polymorphic proteins can be used to identify individuals that require modified treatment modalities. The antibodies are also useful as diagnostic tools as an immunological marker for aberrant protein analyzed by electrophoretic mobility, isoelectric point, tryptic peptide digest, and other physical assays known to those in the art.

[0096] The antibodies are also useful for tissue typing. Experimental data as provided in FIG. 1 indicates expression in the infant brain and placenta. Thus, where a specific protein has been correlated with expression in a specific tissue, antibodies that are specific for this protein can be used to identify a tissue type.

[0097] The antibodies are also useful for inhibiting protein function, for example, blocking the binding of the secreted peptide to a binding partner such as a substrate. These uses can also be applied in a therapeutic context in which treatment involves inhibiting the protein's function. An antibody can be used, for example, to block binding, thus modulating (agonizing or antagonizing) the peptides activity. Antibodies can be prepared against specific fragments containing sites required for function or against intact protein that is associated with a cell or cell membrane. See FIG. 2 for structural information relating to the proteins of the present invention.

[0098] The invention also encompasses kits for using antibodies to detect the presence of a protein in a biological sample. The kit can comprise antibodies such as a labeled or labelable antibody and a compound or agent for detecting protein in a biological sample; means for determining the amount of protein in the sample; means for comparing the amount of protein in the sample with a standard; and instructions for use. Such a kit can be supplied to detect a single protein or epitope or can be configured to detect one of a multitude of epitopes, such as in an antibody detection array. Arrays are described in detail below for nuleic acid arrays and similar methods have been developed for antibody arrays.

[0099] Nucleic Acid Molecules

[0100] The present invention further provides isolated nucleic acid molecules that encode a secreted peptide or protein of the present invention (cDNA, transcript and genomic sequence). Such nucleic acid molecules will consist of, consist essentially of, or comprise a nucleotide sequence that encodes one of the secreted peptides of the present invention, an allelic variant thereof, or an ortholog or paralog thereof.

[0101] As used herein, an “isolated” nucleic acid molecule is one that is separated from other nucleic acid present in the natural source of the nucleic acid. Preferably, an “isolated” nucleic acid is free of sequences which naturally flank the nucleic acid (i.e., sequences located at the 5′ and 3′ ends of the nucleic acid) in the genomic DNA of the organism from which the nucleic acid is derived. However, there can be some flanking nucleotide sequences, for example up to about 5 KB, 4 KB, 3 KB, 2 KB, or 1 KB or less, particularly contiguous peptide encoding sequences and peptide encoding sequences within the same gene but separated by introns in the genomic sequence. The important point is that the nucleic acid is isolated from remote and unimportant flanking sequences such that it can be subjected to the specific manipulations described herein such as recombinant expression, preparation of probes and primers, and other uses specific to the nucleic acid sequences.

[0102] Moreover, an “isolated” nucleic acid molecule, such as a transcript/cDNA molecule, can be substantially free of other cellular material, or culture medium when produced by recombinant techniques, or chemical precursors or other chemicals when chemically synthesized. However, the nucleic acid molecule can be fused to other coding or regulatory sequences and still be considered isolated.

[0103] For example, recombinant DNA molecules contained in a vector are considered isolated. Further examples of isolated DNA molecules include recombinant DNA molecules maintained in heterologous host cells or purified (partially or substantially) DNA molecules in solution. Isolated RNA molecules include in vivo or in vitro RNA transcripts of the isolated DNA molecules of the present invention. Isolated nucleic acid molecules according to the present invention further include such molecules produced synthetically.

[0104] Accordingly, the present invention provides nucleic acid molecules that consist of the nucleotide sequence shown in FIG. 1 or 3 (SEQ ID NO:1, transcript sequence and SEQ ID NO:3, genomic sequence), or any nucleic acid molecule that encodes the protein provided in FIG. 2, SEQ ID NO:2. A nucleic acid molecule consists of a nucleotide sequence when the nucleotide sequence is the complete nucleotide sequence of the nucleic acid molecule.

[0105] The present invention further provides nucleic acid molecules that consist essentially of the nucleotide sequence shown in FIG. 1 or 3 (SEQ ID NO:1, transcript sequence and SEQ ID NO:3, genomic sequence), or any nucleic acid molecule that encodes the protein provided in FIG. 2, SEQ ID NO:2. A nucleic acid molecule consists essentially of a nucleotide sequence when such a nucleotide sequence is present with only a few additional nucleic acid residues in the final nucleic acid molecule.

[0106] The present invention further provides nucleic acid molecules that comprise the nucleotide sequences shown in FIG. 1 or 3 (SEQ ID NO:1, transcript sequence and SEQ ID NO:3, genomic sequence), or any nucleic acid molecule that encodes the protein provided in FIG. 2, SEQ ID NO:2. A nucleic acid molecule comprises a nucleotide sequence when the nucleotide sequence is at least part of the final nucleotide sequence of the nucleic acid molecule. In such a fashion, the nucleic acid molecule can be only the nucleotide sequence or have additional nucleic acid residues, such as nucleic acid residues that are naturally associated with it or heterologous nucleotide sequences. Such a nucleic acid molecule can have a few additional nucleotides or can comprises several hundred or more additional nucleotides. A brief description of how various types of these nucleic acid molecules can be readily made/isolated is provided below.

[0107] In FIGS. 1 and 3, both coding and non-coding sequences are provided. Because of the source of the present invention, humans genomic sequence (FIG. 3) and cDNA/transcript sequences (FIG. 1), the nucleic acid molecules in the Figures will contain genomic intronic sequences, 5′ and 3′ non-coding sequences, gene regulatory regions and non-coding intergenic sequences. In general such sequence features are either noted in FIGS. 1 and 3 or can readily be identified using computational tools known in the art. As discussed below, some of the non-coding regions, particularly gene regulatory elements such as promoters, are useful for a variety of purposes, e.g. control of heterologous gene expression, target for identifying gene activity modulating compounds, and are particularly claimed as fragments of the genomic sequence provided herein.

[0108] The isolated nucleic acid molecules can encode the mature protein plus additional amino or carboxyl-terminal amino acids, or amino acids interior to the mature peptide (when the mature form has more than one peptide chain, for instance). Such sequences may play a role in processing of a protein from precursor to a mature form, facilitate protein trafficking, prolong or shorten protein half-life or facilitate manipulation of a protein for assay or production, among other things. As generally is the case in situ, the additional amino acids may be processed away from the mature protein by cellular enzymes.

[0109] As mentioned above, the isolated nucleic acid molecules include, but are not limited to, the sequence encoding the secreted peptide alone, the sequence encoding the mature peptide and additional coding sequences, such as a leader or secretory sequence (e.g., a pre-pro or pro-protein sequence), the sequence encoding the mature peptide, with or without the additional coding sequences, plus additional non-coding sequences, for example introns and non-coding 5′ and 3′ sequences such as transcribed but non-translated sequences that play a role in transcription, mRNA processing (including splicing and polyadenylation signals), ribosome binding and stability of mRNA. In addition, the nucleic acid molecule may be fused to a marker sequence encoding, for example, a peptide that facilitates purification.

[0110] Isolated nucleic acid molecules can be in the form of RNA, such as mRNA, or in the form DNA, including cDNA and genomic DNA obtained by cloning or produced by chemical synthetic techniques or by a combination thereof. The nucleic acid, especially DNA, can be double-stranded or single-stranded. Single-stranded nucleic acid can be the coding strand (sense strand) or the non-coding strand (anti-sense strand).

[0111] The invention further provides nucleic acid molecules that encode fragments of the peptides of the present invention as well as nucleic acid molecules that encode obvious variants of the secreted proteins of the present invention that are described above. Such nucleic acid molecules may be naturally occurring, such as allelic variants (same locus), paralogs (different locus), and orthologs (different organism), or may be constructed by recombinant DNA methods or by chemical synthesis. Such non-naturally occurring variants may be made by mutagenesis techniques, including those applied to nucleic acid molecules, cells, or organisms. Accordingly, as discussed above, the variants can contain nucleotide substitutions, deletions, inversions and insertions. Variation can occur in either or both the coding and non-coding regions. The variations can produce both conservative and non-conservative amino acid substitutions.

[0112] The present invention further provides non-coding fragments of the nucleic acid molecules provided in FIGS. 1 and 3. Preferred non-coding fragments include, but are not limited to, promoter sequences, enhancer sequences, gene modulating sequences and gene termination sequences. Such fragments are useful in controlling heterologous gene expression and in developing screens to identify gene-modulating agents. A promoter can readily be identified as being 5′ to the ATG start site in the genomic sequence provided in FIG. 3.

[0113] A fragment comprises a contiguous nucleotide sequence greater than 12 or more nucleotides. Further, a fragment could at least 30, 40, 50, 100, 250 or 500 nucleotides in length. The length of the fragment will be based on its intended use. For example, the fragment can encode epitope bearing regions of the peptide, or can be useful as DNA probes and primers. Such fragments can be isolated using the known nucleotide sequence to synthesize an oligonucleotide probe. A labeled probe can then be used to screen a cDNA library, genomic DNA library, or mRNA to isolate nucleic acid corresponding to the coding region. Further, primers can be used in PCR reactions to clone specific regions of gene.

[0114] A probe/primer typically comprises substantially a purified oligonucleotide or oligonucleotide pair. The oligonucleotide typically comprises a region of nucleotide sequence that hybridizes under stringent conditions to at least about 12, 20, 25, 40, 50 or more consecutive nucleotides.

[0115] Orthologs, homologs, and allelic variants can be identified using methods well known in the art. As described in the Peptide Section, these variants comprise a nucleotide sequence encoding a peptide that is typically 60-70%, 70-80%, 80-90%, and more typically at least about 90-95% or more homologous to the nucleotide sequence shown in the Figure sheets or a fragment of this sequence. Such nucleic acid molecules can readily be identified as being able to hybridize under moderate to stringent conditions, to the nucleotide sequence shown in the Figure sheets or a fragment of the sequence. Allelic variants can readily be determined by genetic locus of the encoding gene. As indicated by the data presented in FIG. 3, the map position was determined to be on chromosome 8 by ePCR.

[0116]FIG. 3 provides information on SNPs that have been found in the gene encoding the secreted protein of the present invention. SNPs were identified at 137 different nucleotide positions in introns.Such SNPs in introns may affect control/regulatory elements.

[0117] As used herein, the term “hybridizes under stringent conditions” is intended to describe conditions for hybridization and washing under which nucleotide sequences encoding a peptide at least 60-70% homologous to each other typically remain hybridized to each other. The conditions can be such that sequences at least about 60%, at least about 70%, or at least about 80% or more homologous to each other typically remain hybridized to each other. Such stringent conditions are known to those skilled in the art and can be found in Current Protocols in Molecular Biology, John Wiley & Sons, N.Y. (1989), 6.3.1-6.3.6. One example of stringent hybridization conditions are hybridization in 6× sodium chloride/sodium citrate (SSC) at about 45C, followed by one or more washes in 0.2× SSC, 0.1% SDS at 50-65C. Examples of moderate to low stringency hybridization conditions are well known in the art.

[0118] Nucleic Acid Molecule Uses

[0119] The nucleic acid molecules of the present invention are useful for probes, primers, chemical intermediates, and in biological assays. The nucleic acid molecules are useful as a hybridization probe for messenger RNA, transcript/cDNA and genomic DNA to isolate full-length cDNA and genomic clones encoding the peptide described in FIG. 2 and to isolate cDNA and genomic clones that correspond to variants (alleles, orthologs, etc.) producing the same or related peptides shown in FIG. 2. 137 SNPs, including 23 indels, have been identified in the gene encoding the secreted protein provided by the present invention and are given in FIG. 3.

[0120] The probe can correspond to any sequence along the entire length of the nucleic acid molecules provided in the Figures. Accordingly, it could be derived from 5′ noncoding regions, the coding region, and 3′ noncoding regions. However, as discussed, fragments are not to be construed as encompassing fragments disclosed prior to the present invention.

[0121] The nucleic acid molecules are also useful as primers for PCR to amplify any given region of a nucleic acid molecule and are useful to synthesize antisense molecules of desired length and sequence.

[0122] The nucleic acid molecules are also useful for constructing recombinant vectors. Such vectors include expression vectors that express a portion of, or all of, the peptide sequences.

[0123] Vectors also include insertion vectors, used to integrate into another nucleic acid molecule sequence, such as into the cellular genome, to alter in situ expression of a gene and/or gene product. For example, an endogenous coding sequence can be replaced via homologous recombination with all or part of the coding region containing one or more specifically introduced mutations.

[0124] The nucleic acid molecules are also useful for expressing antigenic portions of the proteins.

[0125] The nucleic acid molecules are also useful as probes for determining the chromosomal positions of the nucleic acid molecules by means of in situ hybridization methods. As indicated by the data presented in FIG. 3, the map position was determined to be on chromosome 8 by ePCR.

[0126] The nucleic acid molecules are also useful in making vectors containing the gene regulatory regions of the nucleic acid molecules of the present invention.

[0127] The nucleic acid molecules are also useful for designing ribozymes corresponding to all, or a part, of the mRNA produced from the nucleic acid molecules described herein. The nucleic acid molecules are also useful for making vectors that express part, or all, of the peptides.

[0128] The nucleic acid molecules are also useful for constructing host cells expressing a part, or all, of the nucleic acid molecules and peptides.

[0129] The nucleic acid molecules are also useful for constructing transgenic animals expressing all, or a part, of the nucleic acid molecules and peptides.

[0130] The nucleic acid molecules are also useful as hybridization probes for determining the presence, level, form and distribution of nucleic acid expression. Experimental data as provided in FIG. 1 indicates that secreted proteins of the present invention are expressed in the infant brain and placenta detected by a virtual northern blot. Accordingly, the probes can be used to detect the presence of, or to determine levels of, a specific nucleic acid molecule in cells, tissues, and in organisms. The nucleic acid whose level is determined can be DNA or RNA. Accordingly, probes corresponding to the peptides described herein can be used to assess expression and/or gene copy number in a given cell, tissue, or organism. These uses are relevant for diagnosis of disorders involving an increase or decrease in secreted protein expression relative to normal results.

[0131] In vitro techniques for detection of mRNA include Northern hybridizations and in situ hybridizations. In vitro techniques for detecting DNA include Southern hybridizations and in situ hybridization.

[0132] Probes can be used as a part of a diagnostic test kit for identifying cells or tissues that express a secreted protein, such as by measuring a level of a secreted protein-encoding nucleic acid in a sample of cells from a subject e.g., mRNA or genomic DNA, or determining if a secreted protein gene has been mutated. Experimental data as provided in FIG. 1 indicates that secreted proteins of the present invention are expressed in the infant brain and placenta detected by a virtual northern blot.

[0133] Nucleic acid expression assays are useful for drug screening to identify compounds that modulate secreted protein nucleic acid expression.

[0134] The invention thus provides a method for identifying a compound that can be used to treat a disorder associated with nucleic acid expression of the secreted protein gene, particularly biological and pathological processes that are mediated by the secreted protein in cells and tissues that express it. Experimental data as provided in FIG. 1 indicates expression in the infant brain and placenta. The method typically includes assaying the ability of the compound to modulate the expression of the secreted protein nucleic acid and thus identifying a compound that can be used to treat a disorder characterized by undesired secreted protein nucleic acid expression. The assays can be performed in cell-based and cell-free systems. Cell-based assays include cells naturally expressing the secreted protein nucleic acid or recombinant cells genetically engineered to express specific nucleic acid sequences.

[0135] Thus, modulators of secreted protein gene expression can be identified in a method wherein a cell is contacted with a candidate compound and the expression of mRNA determined. The level of expression of secreted protein mRNA in the presence of the candidate compound is compared to the level of expression of secreted protein mRNA in the absence of the candidate compound. The candidate compound can then be identified as a modulator of nucleic acid expression based on this comparison and be used, for example to treat a disorder characterized by aberrant nucleic acid expression. When expression of mRNA is statistically significantly greater in the presence of the candidate compound than in its absence, the candidate compound is identified as a stimulator of nucleic acid expression. When nucleic acid expression is statistically significantly less in the presence of the candidate compound than in its absence, the candidate compound is identified as an inhibitor of nucleic acid expression.

[0136] The invention further provides methods of treatment, with the nucleic acid as a target, using a compound identified through drug screening as a gene modulator to modulate secreted protein nucleic acid expression in cells and tissues that express the secreted protein. Experimental data as provided in FIG. 1 indicates that secreted proteins of the present invention are expressed in the infant brain and placenta detected by a virtual northern blot. Modulation includes both up-regulation (i.e. activation or agonization) or down-regulation (suppression or antagonization) or nucleic acid expression.

[0137] Alternatively, a modulator for secreted protein nucleic acid expression can be a small molecule or drug identified using the screening assays described herein as long as the drug or small molecule inhibits the secreted protein nucleic acid expression in the cells and tissues that express the protein. Experimental data as provided in FIG. 1 indicates expression in the infant brain and placenta.

[0138] The nucleic acid molecules are also useful for monitoring the effectiveness of modulating compounds on the expression or activity of the secreted protein gene in clinical trials or in a treatment regimen. Thus, the gene expression pattern can serve as a barometer for the continuing effectiveness of treatment with the compound, particularly with compounds to which a patient can develop resistance. The gene expression pattern can also serve as a marker indicative of a physiological response of the affected cells to the compound. Accordingly, such monitoring would allow either increased administration of the compound or the administration of alternative compounds to which the patient has not become resistant. Similarly, if the level of nucleic acid expression falls below a desirable level, administration of the compound could be commensurately decreased.

[0139] The nucleic acid molecules are also useful in diagnostic assays for qualitative changes in secreted protein nucleic acid expression, and particularly in qualitative changes that lead to pathology. The nucleic acid molecules can be used to detect mutations in secreted protein genes and gene expression products such as mRNA. The nucleic acid molecules can be used as hybridization probes to detect naturally occurring genetic mutations in the secreted protein gene and thereby to determine whether a subject with the mutation is at risk for a disorder caused by the mutation. Mutations include deletion, addition, or substitution of one or more nucleotides in the gene, chromosomal rearrangement, such as inversion or transposition, modification of genomic DNA, such as aberrant methylation patterns or changes in gene copy number, such as amplification. Detection of a mutated form of the secreted protein gene associated with a dysfunction provides a diagnostic tool for an active disease or susceptibility to disease when the disease results from overexpression, underexpression, or altered expression of a secreted protein.

[0140] Individuals carrying mutations in the secreted protein gene can be detected at the nucleic acid level by a variety of techniques. FIG. 3 provides information on SNPs that have been found in the gene encoding the secreted protein of the present invention. SNPs were identified at 137 different nucleotide positions in introns.Such SNPs in introns may affect control/regulatory elements. As indicated by the data presented in FIG. 3, the map position was determined to be on chromosome 8 by ePCR. Genomic DNA can be analyzed directly or can be amplified by using PCR prior to analysis. RNA or cDNA can be used in the same way. In some uses, detection of the mutation involves the use of a probe/primer in a polymerase chain reaction (PCR) (see, e.g. U.S. Pat. Nos. 4,683,195 and 4,683,202), such as anchor PCR or RACE PCR, or, alternatively, in a ligation chain reaction (LCR) (see, e.g., Landegran et al., Science 241:1077-1080 (1988); and Nakazawa et al., PNAS 91:360-364 (1994)), the latter of which can be particularly useful for detecting point mutations in the gene (see Abravaya et al., Nucleic Acids Res. 23:675-682 (1995)). This method can include the steps of collecting a sample of cells from a patient, isolating nucleic acid (e.g., genomic, mRNA or both) from the cells of the sample, contacting the nucleic acid sample with one or more primers which specifically hybridize to a gene under conditions such that hybridization and amplification of the gene (if present) occurs, and detecting the presence or absence of an amplification product, or detecting the size of the amplification product and comparing the length to a control sample. Deletions and insertions can be detected by a change in size of the amplified product compared to the normal genotype. Point mutations can be identified by hybridizing amplified DNA to normal RNA or antisense DNA sequences.

[0141] Alternatively, mutations in a secreted protein gene can be directly identified, for example, by alterations in restriction enzyme digestion patterns determined by gel electrophoresis.

[0142] Further, sequence-specific ribozymes (U.S. Pat. No. 5,498,531) can be used to score for the presence of specific mutations by development or loss of a ribozyme cleavage site. Perfectly matched sequences can be distinguished from mismatched sequences by nuclease cleavage digestion assays or by differences in melting temperature.

[0143] Sequence changes at specific locations can also be assessed by nuclease protection assays such as RNase and SI protection or the chemical cleavage method. Furthermore, sequence differences between a mutant secreted protein gene and a wild-type gene can be determined by direct DNA sequencing. A variety of automated sequencing procedures can be utilized when performing the diagnostic assays (Naeve, C. W., (1995) Biotechniques 19:448), including sequencing by mass spectrometry (see, e.g., PCT International Publication No. WO 94/16101; Cohen et al., Adv. Chromatogr. 36:127-162 (1996); and Griffin et al., Appl. Biochem. Biotechnol. 38:147-159 (1993)).

[0144] Other methods for detecting mutations in the gene include methods in which protection from cleavage agents is used to detect mismatched bases in RNA/RNA or RNA/DNA duplexes (Myers et al., Science 230:1242 (1985)); Cotton et al., PNAS 85:4397 (1988); Saleeba et al., Meth. EnzymoL. 217:286-295 (1992)), electrophoretic mobility of mutant and wild type nucleic acid is compared (Orita et al., PNAS 86:2766 (1989); Cotton et al., Mutat. Res. 285:125-144 (1993); and Hayashi et al., Genet. Anal. Tech. Appl. 9:73-79 (1992)), and movement of mutant or wild-type fragments in polyacrylamide gels containing a gradient of denaturant is assayed using denaturing gradient gel electrophoresis (Myers et al., Nature 313:495 (1985)). Examples of other techniques for detecting point mutations include selective oligonucleotide hybridization, selective amplification, and selective primer extension.

[0145] The nucleic acid molecules are also useful for testing an individual for a genotype that while not necessarily causing the disease, nevertheless affects the treatment modality. Thus, the nucleic acid molecules can be used to study the relationship between an individual's genotype and the individual's response to a compound used for treatment (pharmacogenomic relationship). Accordingly, the nucleic acid molecules described herein can be used to assess the mutation content of the secreted protein gene in an individual in order to select an appropriate compound or dosage regimen for treatment. FIG. 3 provides information on SNPs that have been found in the gene encoding the secreted protein of the present invention. SNPs were identified at 137 different nucleotide positions in introns.Such SNPs in introns may affect control/regulatory elements.

[0146] Thus nucleic acid molecules displaying genetic variations that affect treatment provide a diagnostic target that can be used to tailor treatment in an individual. Accordingly, the production of recombinant cells and animals containing these polymorphisms allow effective clinical design of treatment compounds and dosage regimens.

[0147] The nucleic acid molecules are thus useful as antisense constructs to control secreted protein gene expression in cells, tissues, and organisms. A DNA antisense nucleic acid molecule is designed to be complementary to a region of the gene involved in transcription, preventing transcription and hence production of secreted protein. An antisense RNA or DNA nucleic acid molecule would hybridize to the mRNA and thus block translation of mRNA into secreted protein.

[0148] Alternatively, a class of antisense molecules can be used to inactivate mRNA in order to decrease expression of secreted protein nucleic acid. Accordingly, these molecules can treat a disorder characterized by abnormal or undesired secreted protein nucleic acid expression. This technique involves cleavage by means of ribozymes containing nucleotide sequences complementary to one or more regions in the mRNA that attenuate the ability of the mRNA to be translated. Possible regions include coding regions and particularly coding regions corresponding to the catalytic and other functional activities of the secreted protein, such as substrate binding.

[0149] The nucleic acid molecules also provide vectors for gene therapy in patients containing cells that are aberrant in secreted protein gene expression. Thus, recombinant cells, which include the patient's cells that have been engineered ex vivo and returned to the patient, are introduced into an individual where the cells produce the desired secreted protein to treat the individual.

[0150] The invention also encompasses kits for detecting the presence of a secreted protein nucleic acid in a biological sample. Experimental data as provided in FIG. 1 indicates that secreted proteins of the present invention are expressed in the infant brain and placenta detected by a virtual northern blot. For example, the kit can comprise reagents such as a labeled or labelable nucleic acid or agent capable of detecting secreted protein nucleic acid in a biological sample; means for determining the amount of secreted protein nucleic acid in the sample; and means for comparing the amount of secreted protein nucleic acid in the sample with a standard. The compound or agent can be packaged in a suitable container. The kit can further comprise instructions for using the kit to detect secreted protein mRNA or DNA.

[0151] Nucleic Acid Arrays

[0152] The present invention further provides nucleic acid detection kits, such as arrays or microarrays of nucleic acid molecules that are based on the sequence information provided in FIGS. 1 and 3 (SEQ ID NOS:1 and 3).

[0153] As used herein “Arrays” or “Microarrays” refers to an array of distinct polynucleotides or oligonucleotides synthesized on a substrate, such as paper, nylon or other type of membrane, filter, chip, glass slide, or any other suitable solid support. In one embodiment, the microarray is prepared and used according to the methods described in U.S. Pat. No. 5,837,832, Chee et al., PCT application WO95/11995 (Chee et al.), Lockhart, D. J. et al. (1996; Nat. Biotech. 14: 1675-1680) and Schena, M. et al. (1996; Proc. Natl. Acad. Sci. 93: 10614-10619), all of which are incorporated herein in their entirety by reference. In other embodiments, such arrays are produced by the methods described by Brown et al., U.S. Pat. No. 5,807,522.

[0154] The microarray or detection kit is preferably composed of a large number of unique, single-stranded nucleic acid sequences, usually either synthetic antisense oligonucleotides or fragments of cDNAs, fixed to a solid support. The oligonucleotides are preferably about 6-60 nucleotides in length, more preferably 15-30 nucleotides in length, and most preferably about 20-25 nucleotides in length. For a certain type of microarray or detection kit, it may be preferable to use oligonucleotides that are only 7-20 nucleotides in length. The microarray or detection kit may contain oligonucleotides that cover the known 5′, or 3′, sequence, sequential oligonucleotides which cover the full length sequence; or unique oligonucleotides selected from particular areas along the length of the sequence. Polynucleotides used in the microarray or detection kit may be oligonucleotides that are specific to a gene or genes of interest.

[0155] In order to produce oligonucleotides to a known sequence for a microarray or detection kit, the gene(s) of interest (or an ORF identified from the contigs of the present invention) is typically examined using a computer algorithm which starts at the 5′ or at the 3′ end of the nucleotide sequence. Typical algorithms will then identify oligomers of defined length that are unique to the gene, have a GC content within a range suitable for hybridization, and lack predicted secondary structure that may interfere with hybridization. In certain situations it may be appropriate to use pairs of oligonucleotides on a microarray or detection kit. The “pairs” will be identical, except for one nucleotide that preferably is located in the center of the sequence. The second oligonucleotide in the pair (mismatched by one) serves as a control. The number of oligonucleotide pairs may range from two to one million. The oligomers are synthesized at designated areas on a substrate using a light-directed chemical process. The substrate may be paper, nylon or other type of membrane, filter, chip, glass slide or any other suitable solid support.

[0156] In another aspect, an oligonucleotide may be synthesized on the surface of the substrate by using a chemical coupling procedure and an ink jet application apparatus, as described in PCT application WO95/251116 (Baldeschweiler et al.) which is incorporated herein in its entirety by reference. In another aspect, a “gridded” array analogous to a dot (or slot) blot may be used to arrange and link cDNA fragments or oligonucleotides to the surface of a substrate using a vacuum system, thermal, UV, mechanical or chemical bonding procedures. An array, such as those described above, may be produced by hand or by using available devices (slot blot or dot blot apparatus), materials (any suitable solid support), and machines (including robotic instruments), and may contain 8, 24, 96, 384, 1536, 6144 or more oligonucleotides, or any other number between two and one million which lends itself to the efficient use of commercially available instrumentation.

[0157] In order to conduct sample analysis using a microarray or detection kit, the RNA or DNA from a biological sample is made into hybridization probes. The mRNA is isolated, and cDNA is produced and used as a template to make antisense RNA (aRNA). The aRNA is amplified in the presence of fluorescent nucleotides, and labeled probes are incubated with the microarray or detection kit so that the probe sequences hybridize to complementary oligonucleotides of the microarray or detection kit. Incubation conditions are adjusted so that hybridization occurs with precise complementary matches or with various degrees of less complementarity. After removal of nonhybridized probes, a scanner is used to determine the levels and patterns of fluorescence. The scanned images are examined to determine degree of complementarity and the relative abundance of each oligonucleotide sequence on the microarray or detection kit. The biological samples may be obtained from any bodily fluids (such as blood, urine, saliva, phlegm, gastric juices, etc.), cultured cells, biopsies, or other tissue preparations. A detection system may be used to measure the absence, presence, and amount of hybridization for all of the distinct sequences simultaneously. This data may be used for large-scale correlation studies on the sequences, expression patterns, mutations, variants, or polymorphisms among samples.

[0158] Using such arrays, the present invention provides methods to identify the expression of the secreted proteins/peptides of the present invention. In detail, such methods comprise incubating a test sample with one or more nucleic acid molecules and assaying for binding of the nucleic acid molecule with components within the test sample. Such assays will typically involve arrays comprising many genes, at least one of which is a gene of the present invention and or alleles of the secreted protein gene of the present invention. FIG. 3 provides information on SNPs that have been found in the gene encoding the secreted protein of the present invention. SNPs were identified at 137 different nucleotide positions in introns.Such SNPs in introns may affect control/regulatory elements.

[0159] Conditions for incubating a nucleic acid molecule with a test sample vary. Incubation conditions depend on the format employed in the assay, the detection methods employed, and the type and nature of the nucleic acid molecule used in the assay. One skilled in the art will recognize that any one of the commonly available hybridization, amplification or array assay formats can readily be adapted to employ the novel fragments of the Human genome disclosed herein. Examples of such assays can be found in Chard, T, An Introduction to Radioimmunoassay and Related Techniques, Elsevier Science Publishers, Amsterdam, The Netherlands (1986); Bullock, G. R. et al., Techniques in Immunocytochemistry, Academic Press, Orlando, Fla. Vol. 1 (1982), Vol. 2 (1983), Vol. 3 (1985); Tijssen, P., Practice and Theory of Enzyme Immunoassays: Laboratory Techniques in Biochemistry and Molecular Biology, Elsevier Science Publishers, Amsterdam, The Netherlands (1985).

[0160] The test samples of the present invention include cells, protein or membrane extracts of cells. The test sample used in the above-described method will vary based on the assay format, nature of the detection method and the tissues, cells or extracts used as the sample to be assayed. Methods for preparing nucleic acid extracts or of cells are well known in the art and can be readily be adapted in order to obtain a sample that is compatible with the system utilized.

[0161] In another embodiment of the present invention, kits are provided which contain the necessary reagents to carry out the assays of the present invention.

[0162] Specifically, the invention provides a compartmentalized kit to receive, in close confinement, one or more containers which comprises: (a) a first container comprising one of the nucleic acid molecules that can bind to a fragment of the Human genome disclosed herein; and (b) one or more other containers comprising one or more of the following: wash reagents, reagents capable of detecting presence of a bound nucleic acid.

[0163] In detail, a compartmentalized kit includes any kit in which reagents are contained in separate containers. Such containers include small glass containers, plastic containers, strips of plastic, glass or paper, or arraying material such as silica. Such containers allows one to efficiently transfer reagents from one compartment to another compartment such that the samples and reagents are not cross-contaminated, and the agents or solutions of each container can be added in a quantitative fashion from one compartment to another. Such containers will include a container which will accept the test sample, a container which contains the nucleic acid probe, containers which contain wash reagents (such as phosphate buffered saline, Tris-buffers, etc.), and containers which contain the reagents used to detect the bound probe. One skilled in the art will readily recognize that the previously unidentified secreted protein gene of the present invention can be routinely identified using the sequence information disclosed herein can be readily incorporated into one of the established kit formats which are well known in the art, particularly expression arrays.

[0164] Vectors/Host Cells

[0165] The invention also provides vectors containing the nucleic acid molecules described herein. The term “vector” refers to a vehicle, preferably a nucleic acid molecule, which can transport the nucleic acid molecules. When the vector is a nucleic acid molecule, the nucleic acid molecules are covalently linked to the vector nucleic acid. With this aspect of the invention, the vector includes a plasmid, single or double stranded phage, a single or double stranded RNA or DNA viral vector, or artificial chromosome, such as a BAC, PAC, YAC, OR MAC.

[0166] A vector can be maintained in the host cell as an extrachromosomal element where it replicates and produces additional copies of the nucleic acid molecules. Alternatively, the vector may integrate into the host cell genome and produce additional copies of the nucleic acid molecules when the host cell replicates.

[0167] The invention provides vectors for the maintenance (cloning vectors) or vectors for expression (expression vectors) of the nucleic acid molecules. The vectors can function in prokaryotic or eukaryotic cells or in both (shuttle vectors).

[0168] Expression vectors contain cis-acting regulatory regions that are operably linked in the vector to the nucleic acid molecules such that transcription of the nucleic acid molecules is allowed in a host cell. The nucleic acid molecules can be introduced into the host cell with a separate nucleic acid molecule capable of affecting transcription. Thus, the second nucleic acid molecule may provide a trans-acting factor interacting with the cis-regulatory control region to allow transcription of the nucleic acid molecules from the vector. Alternatively, a trans-acting factor may be supplied by the host cell. Finally, a trans-acting factor can be produced from the vector itself. It is understood, however, that in some embodiments, transcription and/or translation of the nucleic acid molecules can occur in a cell-free system.

[0169] The regulatory sequence to which the nucleic acid molecules described herein can be operably linked include promoters for directing mRNA transcription. These include, but are not limited to, the left promoter from bacteriophage λ, the lac, TRP, and TAC promoters from E. coli, the early and late promoters from SV40, the CMV immediate early promoter, the adenovirus early and late promoters, and retrovirus long-terminal repeats.

[0170] In addition to control regions that promote transcription, expression vectors may also include regions that modulate transcription, such as repressor binding sites and enhancers. Examples include the SV40 enhancer, the cytomegalovirus immediate early enhancer, polyoma enhancer, adenovirus enhancers, and retrovirus LTR enhancers.

[0171] In addition to containing sites for transcription initiation and control, expression vectors can also contain sequences necessary for transcription termination and, in the transcribed region a ribosome binding site for translation. Other regulatory control elements for expression include initiation and termination codons as well as polyadenylation signals. The person of ordinary skill in the art would be aware of the numerous regulatory sequences that are useful in expression vectors. Such regulatory sequences are described, for example, in Sambrook et al., Molecular Cloning: A Laboratory Manual. 2nd. ed., Cold Spring Harbor Laboratory Press, Cold Spring Harbor, N.Y., (1989).

[0172] A variety of expression vectors can be used to express a nucleic acid molecule. Such vectors include chromosomal, episomal, and virus-derived vectors, for example vectors derived from bacterial plasmids, from bacteriophage, from yeast episomes, from yeast chromosomal elements, including yeast artificial chromosomes, from viruses such as baculoviruses, papovaviruses such as SV40, Vaccinia viruses, adenoviruses, poxviruses, pseudorabies viruses, and retroviruses. Vectors may also be derived from combinations of these sources such as those derived from plasmid and bacteriophage genetic elements, e.g. cosmids and phagemids. Appropriate cloning and expression vectors for prokaryotic and eukaryotic hosts are described in Sambrook et al., Molecular Cloning: A Laboratory Manual. 2nd. ed., Cold Spring Harbor Laboratory Press, Cold Spring Harbor, N.Y., (1989).

[0173] The regulatory sequence may provide constitutive expression in one or more host cells (i.e. tissue specific) or may provide for inducible expression in one or more cell types such as by temperature, nutrient additive, or exogenous factor such as a hormone or other ligand. A variety of vectors providing for constitutive and inducible expression in prokaryotic and eukaryotic hosts are well known to those of ordinary skill in the art.

[0174] The nucleic acid molecules can be inserted into the vector nucleic acid by well-known methodology. Generally, the DNA sequence that will ultimately be expressed is joined to an expression vector by cleaving the DNA sequence and the expression vector with one or more restriction enzymes and then ligating the fragments together. Procedures for restriction enzyme digestion and ligation are well known to those of ordinary skill in the art.

[0175] The vector containing the appropriate nucleic acid molecule can be introduced into an appropriate host cell for propagation or expression using well-known techniques. Bacterial cells include, but are not limited to, E. coli, Streptomyces, and Salmonella typhimurium. Eukaryotic cells include, but are not limited to, yeast, insect cells such as Drosophila, animal cells such as COS and CHO cells, and plant cells.

[0176] As described herein, it may be desirable to express the peptide as a fusion protein. Accordingly, the invention provides fusion vectors that allow for the production of the peptides. Fusion vectors can increase the expression of a recombinant protein, increase the solubility of the recombinant protein, and aid in the purification of the protein by acting for example as a ligand for affinity purification. A proteolytic cleavage site may be introduced at the junction of the fusion moiety so that the desired peptide can ultimately be separated from the fusion moiety. Proteolytic enzymes include, but are not limited to, factor Xa, thrombin, and enterokinase. Typical fusion expression vectors include pGEX (Smith et al., Gene 67:31-40 (1988)), pMAL (New England Biolabs, Beverly, Mass.) and pRIT5 (Pharmacia, Piscataway, N.J.) which fuse glutathione S-transferase (GST), maltose E binding protein, or protein A, respectively, to the target recombinant protein. Examples of suitable inducible non-fusion E. coli expression vectors include pTrc (Amann et al., Gene 69:301-315 (1988)) and pET 11d (Studier et al., Gene Expression Technology: Methods in Enzymology 185:60-89 (1990)).

[0177] Recombinant protein expression can be maximized in host bacteria by providing a genetic background wherein the host cell has an impaired capacity to proteolytically cleave the recombinant protein. (Gottesman, S., Gene Expression Technology: Methods in Enzymology 185, Academic Press, San Diego, Calif. (1990)119-128). Alternatively, the sequence of the nucleic acid molecule of interest can be altered to provide preferential codon usage for a specific host cell, for example E. coli. (Wada et al., Nucleic Acids Res. 20:2111-2118 (1992)).

[0178] The nucleic acid molecules can also be expressed by expression vectors that are operative in yeast. Examples of vectors for expression in yeast e.g., S. cerevisiae include pYepSecl (Baldari, et al., EMBO J. 6:229-234 (1987)), pMFa (Kurjan et al., Cell 30:933-943(1982)), pJRY88 (Schultz et al., Gene 54:113-123 (1987)), and pYES2 (invitrogen Corporation, San Diego, Calif.).

[0179] The nucleic acid molecules can also be expressed in insect cells using, for example, baculovirus expression vectors. Baculovirus vectors available for expression of proteins in cultured insect cells (e.g., Sf 9 cells) include the pAc series (Smith et al., Mol. Cell Biol. 3:2156-2165 (1983)) and the pVL series (Lucklow et al., Virology 170:31-39 (1989)).

[0180] In certain embodiments of the invention, the nucleic acid molecules described herein are expressed in mammalian cells using mammalian expression vectors. Examples of mammalian expression vectors include pCDM8 (Seed, B. Nature 329:840(1987)) and pMT2PC (Kaufman et al., EMBO J. 6:187-195 (1987)).

[0181] The expression vectors listed herein are provided by way of example only of the well-known vectors available to those of ordinary skill in the art that would be useful to express the nucleic acid molecules. The person of ordinary skill in the art would be aware of other vectors suitable for maintenance propagation or expression of the nucleic acid molecules described herein. These are found for example in Sambrook, J., Fritsh, E. F., and Maniatis, T. Molecular Cloning: A Laboratory Manual. 2nd, ed., Cold Spring Harbor Laboratory, Cold Spring Harbor Laboratory Press, Cold Spring Harbor, N.Y., 1989.

[0182] The invention also encompasses vectors in which the nucleic acid sequences described herein are cloned into the vector in reverse orientation, but operably linked to a regulatory sequence that permits transcription of antisense RNA. Thus, an antisense transcript can be produced to all, or to a portion, of the nucleic acid molecule sequences described herein, including both coding and non-coding regions. Expression of this antisense RNA is subject to each of the parameters described above in relation to expression of the sense RNA (regulatory sequences, constitutive or inducible expression, tissue-specific expression).

[0183] The invention also relates to recombinant host cells containing the vectors described herein. Host cells therefore include prokaryotic cells, lower eukaryotic cells such as yeast, other eukaryotic cells such as insect cells, and higher eukaryotic cells such as mammalian cells.

[0184] The recombinant host cells are prepared by introducing the vector constructs described herein into the cells by techniques readily available to the person of ordinary skill in the art. These include, but are not limited to, calcium phosphate transfection, DEAE-dextran-mediated transfection, cationic lipid-mediated transfection, electroporation, transduction, infection, lipofection, and other techniques such as those found in Sambrook, et al. (Molecular Cloning: A Laboratory Manual. 2nd, ed., Cold Spring Harbor Laboratory, Cold Spring Harbor Laboratory Press, Cold Spring Harbor, N.Y., 1989).

[0185] Host cells can contain more than one vector. Thus, different nucleotide sequences can be introduced on different vectors of the same cell. Similarly, the nucleic acid molecules can be introduced either alone or with other nucleic acid molecules that are not related to the nucleic acid molecules such as those providing trans-acting factors for expression vectors. When more than one vector is introduced into a cell, the vectors can be introduced independently, co-introduced or joined to the nucleic acid molecule vector.

[0186] In the case of bacteriophage and viral vectors, these can be introduced into cells as packaged or encapsulated virus by standard procedures for infection and transduction. Viral vectors can be replication-competent or replication-defective. In the case in which viral replication is defective, replication will occur in host cells providing functions that complement the defects.

[0187] Vectors generally include selectable markers that enable the selection of the subpopulation of cells that contain the recombinant vector constructs. The marker can be contained in the same vector that contains the nucleic acid molecules described herein or may be on a separate vector. Markers include tetracycline or ampicillin-resistance genes for prokaryotic host cells and dihydrofolate reductase or neomycin resistance for eukaryotic host cells. However, any marker that provides selection for a phenotypic trait will be effective.

[0188] While the mature proteins can be produced in bacteria, yeast, mammalian cells, and other cells under the control of the appropriate regulatory sequences, cell-free transcription and translation systems can also be used to produce these proteins using RNA derived from the DNA constructs described herein.

[0189] Where secretion of the peptide is desired, which is difficult to achieve with multi-transmembrane domain containing proteins such as kinases, appropriate secretion signals are incorporated into the vector. The signal sequence can be endogenous to the peptides or heterologous to these peptides. Where the peptide is not secreted into the medium, which is typically the case with kinases, the protein can be isolated from the host cell by standard disruption procedures, including freeze thaw, sonication, mechanical disruption, use of lysing agents and the like. The peptide can then be recovered and purified by well-known purification methods including ammonium sulfate precipitation, acid extraction, anion or cationic exchange chromatography, phosphocellulose chromatography, hydrophobic-interaction chromatography, affinity chromatography, hydroxylapatite chromatography, lectin chromatography, or high performance liquid chromatography.

[0190] It is also understood that depending upon the host cell in recombinant production of the peptides described herein, the peptides can have various glycosylation patterns, depending upon the cell, or maybe non-glycosylated as when produced in bacteria. In addition, the peptides may include an initial modified methionine in some cases as a result of a host-mediated process.

[0191] Uses of Vectors and Host Cells

[0192] The recombinant host cells expressing the peptides described herein have a variety of uses. First, the cells are useful for producing a secreted protein or peptide that can be further purified to produce desired amounts of secreted protein or fragments. Thus, host cells containing expression vectors are useful for peptide production.

[0193] Host cells are also useful for conducting cell-based assays involving the secreted protein or secreted protein fragments, such as those described above as well as other formats known in the art. Thus, a recombinant host cell expressing a native secreted protein is useful for assaying compounds that stimulate or inhibit secreted protein function.

[0194] Host cells are also useful for identifying secreted protein mutants in which these functions are affected. If the mutants naturally occur and give rise to a pathology, host cells containing the mutations are useful to assay compounds that have a desired effect on the mutant secreted protein (for example, stimulating or inhibiting function) which may not be indicated by their effect on the native secreted protein.

[0195] Genetically engineered host cells can be further used to produce non-human transgenic animals. A transgenic animal is preferably a mammal, for example a rodent, such as a rat or mouse, in which one or more of the cells of the animal include a transgene. A transgene is exogenous DNA which is integrated into the genome of a cell from which a transgenic animal develops and which remains in the genome of the mature animal in one or more cell types or tissues of the transgenic animal. These animals are useful for studying the function of a secreted protein and identifying and evaluating modulators of secreted protein activity. Other examples of transgenic animals include non-human primates, sheep, dogs, cows, goats, chickens, and amphibians.

[0196] A transgenic animal can be produced by introducing nucleic acid into the male pronuclei of a fertilized oocyte, e.g., by microinjection, retroviral infection, and allowing the oocyte to develop in a pseudopregnant female foster animal. Any of the secreted protein nucleotide sequences can be introduced as a transgene into the genome of a non-human animal, such as a mouse.

[0197] Any of the regulatory or other sequences useful in expression vectors can form part of the transgenic sequence. This includes intronic sequences and polyadenylation signals, if not already included. A tissue-specific regulatory sequence(s) can be operably linked to the transgene to direct expression of the secreted protein to particular cells.

[0198] Methods for generating transgenic animals via embryo manipulation and microinjection, particularly animals such as mice, have become conventional in the art and are described, for example, in U.S. Pat. Nos. 4,736,866 and 4,870,009, both by Leder et al., U.S. Pat. No. 4,873,191 by Wagner et al. and in Hogan, B., Manipulating the Mouse Embryo, (Cold Spring Harbor Laboratory Press, Cold Spring Harbor, N.Y., 1986). Similar methods are used for production of other transgenic animals. A transgenic founder animal can be identified based upon the presence of the transgene in its genome and/or expression of transgenic mRNA in tissues or cells of the animals. A transgenic founder animal can then be used to breed additional animals carrying the transgene. Moreover, transgenic animals carrying a transgene can further be bred to other transgenic animals carrying other transgenes. A transgenic animal also includes animals in which the entire animal or tissues in the animal have been produced using the homologously recombinant host cells described herein.

[0199] In another embodiment, transgenic non-human animals can be produced which contain selected systems that allow for regulated expression of the transgene. One example of such a system is the cre/loxP recombinase system of bacteriophage P1. For a description of the cre/loxP recombinase system, see, e.g., Lakso et al. PNAS 89:6232-6236 (1992). Another example of a recombinase system is the FLP recombinase system of S. cerevisiae (O'Gorman et al. Science 251:1351-1355 (1991). If a cre/loxP recombinase system is used to regulate expression of the transgene, animals containing transgenes encoding both the Cre recombinase and a selected protein is required. Such animals can be provided through the construction of “double” transgenic animals, e.g., by mating two transgenic animals, one containing a transgene encoding a selected protein and the other containing a transgene encoding a recombinase.

[0200] Clones of the non-human transgenic animals described herein can also be produced according to the methods described in Wilmut, I. et al. Nature 385:810-813 (1997) and PCT International Publication Nos. WO 97/07668 and WO 97/07669. In brief, a cell, e.g., a somatic cell, from the transgenic animal can be isolated and induced to exit the growth cycle and enter Go phase. The quiescent cell can then be fused, e.g., through the use of electrical pulses, to an enucleated oocyte from an animal of the same species from which the quiescent cell is isolated. The reconstructed oocyte is then cultured such that it develops to morula or blastocyst and then transferred to pseudopregnant female foster animal. The offspring born of this female foster animal will be a clone of the animal from which the cell, e.g., the somatic cell, is isolated.

[0201] Transgenic animals containing recombinant cells that express the peptides described herein are useful to conduct the assays described herein in an in vivo context. Accordingly, the various physiological factors that are present in vivo and that could effect substrate binding, secreted protein activation, and signal transduction, may not be evident from in vitro cell-free or cell-based assays. Accordingly, it is useful to provide non-human transgenic animals to assay in vivo secreted protein function, including substrate interaction, the effect of specific mutant secreted proteins on secreted protein function and substrate interaction, and the effect of chimeric secreted proteins. It is also possible to assess the effect of null mutations, that is, mutations that substantially or completely eliminate one or more secreted protein functions.

[0202] All publications and patents mentioned in the above specification are herein incorporated by reference. Various modifications and variations of the described method and system of the invention will be apparent to those skilled in the art without departing from the scope and spirit of the invention. Although the invention has been described in connection with specific preferred embodiments, it should be understood that the invention as claimed should not be unduly limited to such specific embodiments. Indeed, various modifications of the above-described modes for carrying out the invention which are obvious to those skilled in the field of molecular biology or related fields are intended to be within the scope of the following claims.

1 4 1 732 DNA Homo sapiens 1 atgcagtttc gccttttctc ctttgccctc atcattctga actgcatgga ttacagccac 60 tgccaaggca accgatggag acgcagtaag cgagctagtt atgtatcaaa tcccatttgc 120 aagggttgtt tgtcttgttc aaaggacaat gggtgtagcc gatgtcaaca gaagttgttc 180 ttcttccttc gaagagaagg gatgcgccag tatggagagt gcctgcattc ctgcccatcc 240 gggtactatg gacaccgagc cccagatatg aacagatgtg caagatgcag aatagaaaac 300 tgtgattctt gctttagcaa agacttttgt accaagtgca aagtaggctt ttatttgcat 360 agaggccgtt gctttgatga atgtccagat ggttttgcac cattagaaga aaccatggaa 420 tgtgtggaag gatgtgaagt tggtcattgg agcgaatggg gaacttgtag cagaaataat 480 cgcacatgtg gatttaaatg gggtctggaa accagaacac ggcaaattgt taaaaagcca 540 gtgaaagaca caatactgtg tccaaccatt gctgaatcca ggagatgcaa gatgacaatg 600 aggcattgtc caggagggaa gagaacacca aaggcgaagg agaagaggaa caagaaaaag 660 aaaaggaagc tgatagaaag ggcccaggag caacacagcg tcttcctagc tacagacaga 720 gctaaccaat aa 732 2 243 PRT Homo sapiens 2 Met Gln Phe Arg Leu Phe Ser Phe Ala Leu Ile Ile Leu Asn Cys Met 1 5 10 15 Asp Tyr Ser His Cys Gln Gly Asn Arg Trp Arg Arg Ser Lys Arg Ala 20 25 30 Ser Tyr Val Ser Asn Pro Ile Cys Lys Gly Cys Leu Ser Cys Ser Lys 35 40 45 Asp Asn Gly Cys Ser Arg Cys Gln Gln Lys Leu Phe Phe Phe Leu Arg 50 55 60 Arg Glu Gly Met Arg Gln Tyr Gly Glu Cys Leu His Ser Cys Pro Ser 65 70 75 80 Gly Tyr Tyr Gly His Arg Ala Pro Asp Met Asn Arg Cys Ala Arg Cys 85 90 95 Arg Ile Glu Asn Cys Asp Ser Cys Phe Ser Lys Asp Phe Cys Thr Lys 100 105 110 Cys Lys Val Gly Phe Tyr Leu His Arg Gly Arg Cys Phe Asp Glu Cys 115 120 125 Pro Asp Gly Phe Ala Pro Leu Glu Glu Thr Met Glu Cys Val Glu Gly 130 135 140 Cys Glu Val Gly His Trp Ser Glu Trp Gly Thr Cys Ser Arg Asn Asn 145 150 155 160 Arg Thr Cys Gly Phe Lys Trp Gly Leu Glu Thr Arg Thr Arg Gln Ile 165 170 175 Val Lys Lys Pro Val Lys Asp Thr Ile Leu Cys Pro Thr Ile Ala Glu 180 185 190 Ser Arg Arg Cys Lys Met Thr Met Arg His Cys Pro Gly Gly Lys Arg 195 200 205 Thr Pro Lys Ala Lys Glu Lys Arg Asn Lys Lys Lys Lys Arg Lys Leu 210 215 220 Ile Glu Arg Ala Gln Glu Gln His Ser Val Phe Leu Ala Thr Asp Arg 225 230 235 240 Ala Asn Gln 3 186957 DNA Homo sapiens misc_feature (1)...(186957) n = A,T,C or G 3 cattaaccaa ttttctacag aagtggtact gtcaaaattc ttcctcatga actgaatctg 60 ggggttcact aaactgaaaa gcatctctgg ctaaaaatgc accaactgta caacacaaaa 120 gattaaaatt aaaattatgg aaagttgtct ttgaagggat aagggtgaag tggtctgtaa 180 atttaactaa ggaaggcagt ggctaaccct cttctttcta cacaaagaac ccatcactga 240 tgagtttgcc cttacactgg ttagatacca tagcaaactt cctagtacaa atagaaaatt 300 gattgtaaac cagaacatgt agaagtgaaa gagaccttgg acagacttcc taaaaatact 360 gccaaggaaa ctgagaccaa gaaaattgcc caaagtgacg caggtgatta atggtagcgc 420 tacctctgct tggtcttgtg tttacttttg cctttaaata ttttaaaaga cactgatgac 480 cactgatctt gaatggatct caaagctttg caaggaggca ggggggctta cttagggaag 540 acttcctttc tcccatagat ttaactcctt tataagtata attcatttgt tgtgtgcata 600 tatgactata tttggaaaga agtagtattt atggtgctga agagatattc agcatcatat 660 caagatgatc aagaaatatc aagttatgcc aaacactggg gccactccct acactgaaat 720 gtttccaaat tctgtgataa aaatcaaagg ctcaaaagtc aagaaacaga tccactgttt 780 ctgcaatgtg ttttgtgaac tctatttgtg ccctgtgggc cagtctcagt gatggatttt 840 cttatctatg aaatgggacc aatgacctca actcagattt acttgggtgt tctcaggcat 900 gcatcaaagg catactgctg aaattcttag cacataaata ccactatgta atagtgagtc 960 tgtaaaatag ttatgaatag gcaataatgg aatagttaat aaatatgagt attgcaatat 1020 tctttttata tgattgtctt ttaagtcatc aaatttctga acatcttctg aaactgaagg 1080 aatagaaaag ggaatttaaa tagtataaaa tgctatcata ataatatggt aactgcgggc 1140 atatctatag acattcatac tgccacggtt agtggcataa attcttatct tttgcttaag 1200 gaataaatac attttttcct acagtagtga atgcaggaca gatttcacca gaatgaaatt 1260 ggatggcatc aagtctattt aatgtaacac tttgttaaac agaatatttt ccccaaaccc 1320 aaagcaccta aaagtttaat tcaggagact ttggaaatga gaggaggatt aagaatgaaa 1380 aatactttag tgggaagtga actttttaaa attattttta aagaatcaag gccccaactt 1440 cttcagcact tcaggcaacg gatcacaggt ttttgtttta ttggagaaga aacaaagtaa 1500 ataacagttc tgaggatgaa caaaagctgt tgggaatacc catttcactc ctcaaagtgg 1560 gggcgcgttt tatgaataat ttcagccggc taacatacct tcctgcaaaa cacagacaag 1620 atgtaaatta aaaagtggca gagttgtggc atattgcaaa agtttaaagg gagtcatcag 1680 tccttcagtc agatctccct gcagaaaggt tggcgctgag gttggaactg accctagagg 1740 gctggagagg accccttggg ggtgagcagc cgggttctgg gacccagcaa ggtcaggggg 1800 cgtctcccca gctactcttt atctatcccc cgcactttgg aaagcccgaa gaggattcgc 1860 tccaagttag gcgcgctgtt ggctgtcaac gttctttagg acctcaggga aaccgggacg 1920 tttctggctt taggacccag gaactccgag gcagcctaga cttagatgcc ttggaccaca 1980 gcaccaccta cttatagaag catcccaagc ctcagccggt ctgcatctcc atcggaaagt 2040 gcgcttgcca catcccttcg gatcacttcg tcctcccgag agcgttctgc cttctacagc 2100 tcggaaagaa agaaatctta gctgtgaagt gaccgtggag aaagcgcagg aagcgacaca 2160 attggttagg gaggcagaga gtgtgagcgg gcgcacccct tgcctgggga ccgcgctcgc 2220 gggcggggac ggagcatccc agtggctgca cccgccgctc cgcgctcctg cctggcgtcg 2280 ccaaccccgc ggcggccgct ggaattccag agctgccagg cgctcccagc cggtctcggc 2340 aaacttttcc ccagcccacg tgctaaccaa gcggctcgct tcccgagccc gggatggagc 2400 accgcgccta gggaggccgc gccgcccgag acgtgcgcac ggtaggcaac ccacaccaag 2460 gcagccgcag ctgcggcgct tgggtacacc gccgtggact ccaaatggcc taagagcgtt 2520 cttttagccc tgcgctctca gtgcctttag agttctttcc tttccccgga gcgccggcac 2580 aacgcattat gccgctgggt cggagcttag ggctcggcag aggttgctaa ttcactgatt 2640 ataatcacct tcctctccaa ctcgtccgca gctgcccgct ctggattaag ccgctccgcg 2700 gctcgtgcta ggcagtgggt tcgcttcctc cttccctctc ttctttaaat tgggacgtgc 2760 gaaggcgcag ctgcctcccc ggggctctct ccatccccca cacaccctgt tttcgcttct 2820 tgtctctcag gttcgtggcg gagagatgct gatcgcgctg aactgaccgg tgcggcccgg 2880 gggtgagtgg cgagtctccc tctgagtcct ccccagcagc gcggccggcg ccggctcttt 2940 gggcgaaccc tccagttcct agactttgag aggcgtctct cccccgcccg accgcccaga 3000 tgcagtttcg ccttttctcc tttgccctca tcattctgaa ctgcatggat tacagccact 3060 gccaaggcaa ccgatggaga cgcagtaagc gaggtgggtc cctctctgcc aaaggtgcgt 3120 ggtgggcttc aggggtggcg tgtggaggcg ctcactcacg ccctggctcc gggggctcag 3180 atggtcaggg ctgtgctctc caccccagct tttgcgggtc cccagtcccc acctttagga 3240 ccctggagct ctacaaaaca ctctgttttc tgtaccctgg aggcgcgggg agccggagcg 3300 agacgcgctg ggagctcggc gagccgggcg ccaatcgggc gctcagggct aagtcgtgcg 3360 gtccgcactc atgttcgccg ccccacctcc tcatctaaac ttgtctcttt aggacgtatt 3420 tcttatctga catgcatttt ttttttgtcg tcgttgttct tctctctgtc ctcctaacca 3480 tcttccctgt agctcatttg ttttatcttc cccatccacg tgcgccccaa acccggcctc 3540 agatctcttc ggacttgacc tagcatagtg tgtgtgtggt gtgtgggtgt acccaagcgt 3600 gtgtctgtat tccggagctt gggaggggta ccaagtcgag ggggaggacc tccctttcca 3660 gaaaaaggcc aacatagatc tcttttttct ggaaactgcg acgagatggg aactttctga 3720 attaagcagc aattcccgcg ctggttttct ggggagtcct cgcctccaga ggtttgtttt 3780 taaaacaggc cccactttgc tctctccatt tgctttgcaa aagcagccac accggtggag 3840 gcttctgttc tcaatgaaat tcacttgcgg ctttttaact gctccctccc tctccatcac 3900 ttgtgcgtag cggagaaggc gggtggaagc ctccagaaag gtttcgggga actcgctttc 3960 ctgcagattt agtgcgtatt tctgtctcgg agtccgctgg agatgcaact aatccaactg 4020 cattttagaa gaagggcggc tagacacgat tcaattttct gggtggattt aaacataaac 4080 cactcaccac acgcacatcg aattacccgc gcaggaaggg cgcgcagcag ccccttccca 4140 gggacctggt gagagctgtc tatttcattc ggcactttgg acttttgcgc aattagaatt 4200 tgtcgccggg ttcatgaatg ttgacttttt ctccaagatg taaacatctc actcgatctg 4260 tgatgtgatt tgtttataac tcattgtatg taatctccgc tcctgcatcc agattttgag 4320 gaggactttc cgaaccttat ttttttgatg gctttttagg acattgttaa gctgttctca 4380 cctaggggca gagctagaga ttggcccacc tgagcgcaga gctccaaata actgatggtg 4440 tgcgacttct gtagtccctg cgcttcaatt gtctctgtat ctgcggcttg taagaataaa 4500 ccttctccaa cttctctccc tccctctccc ccgatttctg acttttggaa attgtttatt 4560 ttcagaaatt attttactta aaaatactag agagaaattt cttcccaaag gccatgagag 4620 tttgatattg atacttgtct tgaaaaagtc cctttttatc tcctctctcc tcccctcctg 4680 attcctttct caatcccagt actttctttc gagtattcgg cagagccagc aatttttgat 4740 tacattatgg tcaaaagtgt ttggagaggc ttttcctctt tttataagtc aaagctgcag 4800 tctacttaga aaaactaaag tgcttgaagt ctgcaaaata tagaaatgtc taaaatcctt 4860 tgccagatcc ttattagatg acttgctaat tcagtgatgg ctttctgatc caccctgcct 4920 gtcccattgt ggttgagtgg ggaagaacca agcatattgt tttagtagaa cttaatgcag 4980 agatgctgtt tggtggaaaa ggacattaca gcactcctgc ggccagaagg gatactgcat 5040 gccttctctg cagtgccatc tctaagaatc tgcctatgcc ttcttaggta tctgaagcag 5100 aacctattta tttcaaagct tacttttagc aaaatctctt gtaacgatta ccatccacat 5160 cccaaagcac tgacagtcta actctaaatt gtgcaatagt aacttatgcc aaatcaacct 5220 ttcgatttaa taaaattcaa atgctttcaa gaacgtgtaa attggtaagg gtgtaaaaaa 5280 aaaatcaaac tttttttctt cttctcaaca gatatccctt tacaaatccc aagtttctgg 5340 ctaaaataac tgtcgtcctt aaaagtgacc acactatctg taccaacaaa gggtgtactg 5400 tgtttttaat taaaagtgga actacttaaa gggctggcca gacagtgtag ggtgatagta 5460 gcttttctac tttgcaggga agcttaagga ttgcattgtg agagtattga aatgaataga 5520 gatctaactc aagttgtgtg aattgtccct cttcacaaac ttaagctggt tttaattgat 5580 ctcatgtcca ctgattgatc ctacaccaat tgttgtgcat accaaacaat tggctttccc 5640 caaaaagatt gatttcaatt agttcctcag tgaatgcttg actactggcc aaatcatgtc 5700 agcagtgaca gttgacatgt tagggcctat gtgataccaa catttccctt tttccccttt 5760 gttttggata gtgtcagtta aatattattt tccaagaaga aaagtaattg gtatttttta 5820 taaaaggtgt tgtagtttgg aagattagtt attttcttgg ctttgtgcta caagtaggtg 5880 gcagtggtac caggattggt taggcttacc cctgggacct gattcttttt tttttttttc 5940 catattccat ctgcgaataa tcaaaccttc actgtggagc attctccgaa ctcctttggc 6000 attatgttta gtctgctcta tgatctcaca tgctccataa tatcattttc ttaatgaaat 6060 aaaattcttg gcagagatta gataatttag tcagttaaaa tcaattgcat ccagtttgga 6120 atggagagca aatatatcat ttaacggtat attttatttc aaaatatagc cagacgattg 6180 agaaaatagt attttgaccg tctctacttt tggacaaaac ttcaaatggg ggagatcatc 6240 acgaacaata agactaccta cctaccatat tttcttcccc ttattttgaa aaattataaa 6300 aatgcatttg atagtcacta atggggcctg gttgcaataa ttttaaaaaa ttaattaggc 6360 acaaacacaa tacaatactg acaatgaata tcttttagag gggagacaca tgccaacatt 6420 ttgaaaagct gattaataac tcttattttt ctctccatgt agcatattaa gatttgtctc 6480 cctgactccc ccttcaaaat agtcatgatt ggctattgtt aacccctact atctgtcttg 6540 gtcttgaaac cacttatgat tgatttatat gttaagtgga gttctttgat tactttcatt 6600 ttttggaatg gttgtaagcc acatttcaga ctggattact gaaaggtgga tagacaaatc 6660 ataactttat tgtggtctcc tggaatttct ggagcatggc atgtaatgac ttaatcttat 6720 atctccctca ttctattttt ataccttgtg gtattttaac cagggattta tgaaaacttc 6780 ttgatataat tctcaatgca gcaaggtttc caaatgtata attcatgttt ctggtggtcc 6840 gatggcaggg ggcgtgctat gactagtgtt tctttccgta gccttttccg tactgaatcc 6900 tcagcttctc cttcctctaa taactccttg tttcacaaaa ttagatatag tttcttccat 6960 aaaaaggaag ggtttgtcac aaatattgtg gcatgtttct ggtaactgag gccagagaaa 7020 gcaaacattt tctcttaaac cttatagaga taaattaatt tgtgtttgtg ttcttaaaaa 7080 tttaatgaaa agattcgaat ttttttttac aaatactttc taaatagttt acttctcctg 7140 atattctttc aaaatacaaa atgacacatg gaacatacta acctacagtt aaatgaaaaa 7200 gtttcaaaac acattttgta cacttgctta ctttaagttc caaagtattt cagaaaagct 7260 gatgtgatgt ttaactttgc aacataaaca tgttctgttc ttttctcttt tttgattggc 7320 tgctttctct tccaacataa cggcataatt ttttaaggca gggtcttacc agtacagaga 7380 ggtcagaaag ttgctgtgct caaactaaca tcttattttg ccacagaaat ttggaagtga 7440 ttcagaatag gtgacattcc cctaggccct gggctttctt tatttgcttt taaaatccag 7500 cttggctaga atccaatatt cacagaaatc acaagttgga aatgacactt ctagttccct 7560 aatgcaaaac cacctcttat ttagagacaa actggccagt ttgtggaata tccagggtac 7620 ttctttcctt ccaactgact gcctttaaac tatttctttt ggaaatacgt atccttatcc 7680 atcccaagtc caggaagtag gggacagaca gattttattt gatataagct tgataactac 7740 tctgctaaaa ggaggtgata aactctggga tgacaaagtt ttaaaatttc tgtatttaag 7800 atgacatgaa gcttattttt tctccattaa ctgcagcaat caagggctga tcaggtgaag 7860 acagtgttgc gtatctatat ttatacattt tcatatgttc atccagaata aatagaaaac 7920 atgctaatta atactaaagt gtatacataa tgtatattta tatatattag ggaaggtata 7980 tatgcatacg tgtatacatg ggtgtgtgtg tagggaaagc gatgagtata gtataattat 8040 ggaggatcgg gatttcagaa ctaaaagatt ttcactcatt tttttctagt ccttttcatc 8100 tttctcttcg acaagatgaa aagatgggag tgggtgggaa agggggtggc agggagagaa 8160 tgagaataag attgggtagg gatagtgttt ttactctttc caaagcccac cttccacctg 8220 ttcttctctc ctctaggacc cttctggatc agtcaccctt atttcaagca tgctgccgtt 8280 cctctaatcc caaaattgct gattccctcc ttcttcacac tgctttccaa tctcttctgc 8340 tttccttcac ttcttccctt ccctcctctg gcttgataat cctgtttcat tcactcttca 8400 atctgttact atttggcttc taccttcacc cttttaataa aaagattttc ttttctttaa 8460 agaaattaac aaacaagaaa aatattaaaa gtttataaat gttagactta ttttttagag 8520 cgcttttagg ttcacagcaa aattgagtgg aaggtacaga gatttttaga aaggggtttc 8580 ttaatggcca gtcatactcc cctcattgcc aagtccagca tcggtacagt tctctgggac 8640 ttgttcctat ggtgatatct tatcacctct ttcctttggc tagtgacact gcactggttt 8700 tacctcctat tttctgtcca ttctcttctt tggttccctc actgagaatg tagactagtg 8760 tttcttcacc tttattcatt tccttgggga attttacccg tccctgtttc tcgaactgtc 8820 atttctacat aaagtccttt aattctaggc tcaatttttc ttttcttctt tttttttctt 8880 tcagcttcag attatcctac actcagatct cccaattact gccaatatgg atagatattc 8940 catgcatact caaacctgac aattcgcttt cttttctgtg ccccctccca aatgtgttcc 9000 tctgcttata ttcttttttt atccatggag ttctgggtgc caaggctggg agcctcgcta 9060 tagtctttga cttttctgtt gcctcgtatc agtttgttct tgcctaaact atatcggatt 9120 agtgagttta tatccatctc attctttcca ttcccaaaga tatttcctag ctcaggctct 9180 catagactcc tcatcctcca gcatctactt caatccactt atgatgctcc atcccttaca 9240 gtgctgccac attccatttt tctccaccac agatctgatc atattacttc tctgctaata 9300 aaccctaaac ctcccaggcc tccatattga ctgccgaata aacaccagcc ttttctatag 9360 cagtcagcgt tccccaccat ctgaccacag cctgctttca accttctacc accttgaaag 9420 cacacttggc ttaagctatc ccagataact tcatttctgg gcatgccatg tgttttcaag 9480 ctcttgcgct gttgagcatg tgtgtggtgc ccacctaaaa tgccactgct tctgtgaagc 9540 cttcctggaa ttttctgcct tcctttctaa agccaaaatc aattattccc tcatagtttc 9600 ttagatttct gggctattct taaaggactc ttatttttcc tttttttctg gttatcttgc 9660 cttatgtatc atcatatttt aagcttctct taggcagaac tacggtacat ttatctttgt 9720 actcctcaaa ctagaccttt tagagtgctt tctccacaaa atgtagtgga acaaaaaagt 9780 cattgtatat aacatttttg ttgtttttcc ttaaaattat tttggtgact taatgagaaa 9840 tgctgttttt ttaaaaattg aagttctttg cacatagttg atgtttgaat gattaaatat 9900 tatgggtatt ctcattattt ataattcttt atagtttaaa gaaaaattaa aaaaaaacca 9960 ggtataaaag cattcccagc ccagtactca ttctgaagtc tcttctgatt atttcagaat 10020 ttctccgagt acactagtgt ctgtgtatct gtatacttgt ttgttatttg aatgattgag 10080 tattccaagt gacaggtgat ttgtgggtat ggtagggaaa actggtggta gtggggtaac 10140 cctttttttt ttttttgaga tggaatttcg ctcttgttgc ccagcctgga gtgcaatggt 10200 gcgatcttga ctcactgaac ctccacctcc tgggtccaag tgattcttct gcctcagctt 10260 cccaagtagc tgggattata gatgcccaat accatgccca gctaattttt gtatttttag 10320 tagagatggg gttttgccat gttggccagg ctggtcttga actcctgacc tcaggtgatc 10380 ctcccgcctt ggcctcccaa aatgctggga ttacaggcgt gagccaccgt gcccggctgg 10440 taacccatat tttaaaaaat acttatttta tagaaaaggg caataaagga tttttatccc 10500 caaacacttt gaccatatga atgaataata atttaggata aaataaaaga aagtggtatt 10560 tgccttctat atactcatat taataatata agtacaggaa aaaatttaat cctagttatt 10620 atatttatga ttttagtata ataaatgtag ctatgtggac atacccatga gagatacaga 10680 tgtgtgtgta ttttagaaca agttctgtaa gtatgaagag accacacagt tctgtgtagt 10740 gccttccagg agaacactga catttcactg tcctttgaat gaagtgggac ctgtttgacg 10800 tatacagaag gtgagctgct tatagaaacg tgtggtttta aaactaacag ttaagaggaa 10860 gagaacagag ctaggatcca actttcctga attcactagg ttttcctgta cacggtatgt 10920 ttcaacataa acattaattc aaagaaaaga aattcccttt gaccccattc aaaattcttc 10980 agaccacaga cccttattga tccccagaac ttcctacaac tcataattat gctaataaag 11040 taatgaatat taaataactg aaggctgagg ggtggagtaa ttgaggggca ggaccataag 11100 tatgttttag taaaaatttg catacttgca ttggtaattt ttaaaattat ttttgaatat 11160 gaattataga aacatttcta gtatagccag aacaaatgtg tgtgtgcatg tgtgtacttg 11220 cctgtacatg tgttcatgta tgtgtgtatg ggtgtctatg tgtattttgt gtttaacaca 11280 tgttagaata ataagggtca gagcaaaggt attaaatatc tcttattttt tactctaaaa 11340 tgtagagaaa gtgattatag gtagcttttc tcatctagtc atttggagaa aaccttttac 11400 aatttactta aaactttttc aattttcatc tcttgctgaa agatattaag agcacttata 11460 aaatagaagt tacccagttt agcacatttg ttttcagaag ggtttcttaa cttggggtcc 11520 agaggtaggg ctagggtttt tgtaagcttc ctgaaattag aagcaaaaac attttctgtt 11580 gctttttgtg gtgtagaggg acgatataga gctttcacta aagtctcaaa gaggtccaag 11640 tttcatctct ttccttcaat aggttaagga gcattggctt aaaaaatagg aggtggacct 11700 tccaaattag catgatgcca aatgactgct tcaaagtgat acacataatt gttttctaaa 11760 agtttatttt ccttgtgtga gttttcagcc atttgctatg tttatattta acaatatgaa 11820 gccacactgg aagcactgtc tcaagattta tttcagtaaa taattacttg gcaagtaatt 11880 ccttactcaa agacaatagt tgttaaattc tctcaatccc actaaagagt ttataaaagt 11940 acaacacaaa tatacagtat aggggttttg ttaaaacttc tcatgtgatc taacttttat 12000 ctcattaaga aaacagttaa tatatagttt tagaaatagc tgttgtagct ttccagctgg 12060 tgacatgtgg tgctggcatt gatctgactt gaggcatcat gctgccagtt cacagaatgg 12120 ccagaactgg ggcttagcac tcttcaattc tggccaagtg ggctcctgct agatctttgt 12180 ttctgtgtca gcacatttta gaatttttgt aacatgaagg ccttagtccc tcccctgttg 12240 ctggatacaa ttgccaacta atcacctcag caatgaaaac acatggacca atagagggca 12300 cactttgcat tcttttccct gtgctttgtt ctctgaaatt ttgtgggatt tgtgcttcct 12360 ttgctttgcc ctattggttc aggggcgaaa cctgctctgc tccccccatg gacactgtgg 12420 tcatcttgat gtcatcacag agagaacaaa ggaacaaata aaaagaactt tcagtcttac 12480 tgagcatttc ttgttttgat cgctaatctc cttttgacaa gacctcacca agaggcaaac 12540 tgaaccaacc tcactgtttt agtatctgtg agacacagat gtgaaagcta cagatttaat 12600 taacatgcag gtagattcca gcttctacag ccactttgaa aaacatcagt gggttttatt 12660 ttatttttta aattcagatg ttttacataa gatgaatgcc ctaaaatgta agcaactggt 12720 gaaatttgga gttgcccaaa tgactgcaaa ttaatacttc ccaattaatt gtttttcgaa 12780 ttctttaatc tttatagaga gacctattta tttcgatgct tctctcatac tttggccctt 12840 tgagaattgt aaaaattgtc taatattctg aaaatccaaa gttgttgttg ttattttttt 12900 gagactgagt ctcgctctgt cccagccaaa gtatttttaa gttcttattc cccctcgtgt 12960 aataaagtat gacttggggc tgaaaaattc tctggcatcg gccgggcgcg gtggcttatg 13020 cctgtaatcc cagcactttg ggaggccgag gcgggcggat cacgaggtca ggagatcgag 13080 actatcctgg ctaacatggt gaaaccccgt ctctactaaa aatacaaaaa aaaaaaaaaa 13140 aaaattagcc gggcttggtg gcgggtgcct gtagttccag ctactcagga ggctgaggca 13200 ggagaatggc gtgaacccgg gaggcggagt ttgcagtggg ccgagatcgc accactgcac 13260 tccagcctgg gtgacagagc gagactctgt ctcaaaaaaa aaaaaaaaaa aaaaaaaagt 13320 tctctgccat ctcattgttt ttcacctcac atgctatgtt ctcatgcctc ttcctggtag 13380 tcaaaagcag gcttttaatg ttgaatgatc tgcgctgtgt catcattaaa cttcatgttt 13440 agttattcac tctttttctc ctccaagatt ttgaagactt actttaccct gttgattcag 13500 ctggcagacc tcctctgcaa tccccatgaa gtttaaccga atcataggag attaatatcc 13560 tatgaccaaa tgacatatca tctgctcacc cccaaaaata taactctttg ggggtaacta 13620 tggtatctgt cattccctgc tcttttactg tcatagatgg tctttaaaaa ctctgccctg 13680 gatgagacac cttgctggtc tagtgtattg ggaagagttg ttcctgcagc tcccatgtta 13740 ccatacctaa acagacatta aaagaaggga atcctggtct ttgacttgtc atgtcttctg 13800 ggtagttcta gtaggtggaa gaacgtctac aagaacttat gtttattttg atacttgctt 13860 cttgatgacg ttctagaggt tcactttctt cagatgtgtg tgtgtttaag ggaattttga 13920 gaaactcttg cttgttagtt ctgggctctt ctaaggagat atgaggaagt gggggagaat 13980 agctgtaggt tgggtaactg gaatgaagaa actagcttaa tattttttac ttatccaagg 14040 acttcagaaa aatcagagct gtcctatcca tagcattcct tccactgatg aaagatatct 14100 tgtggccgcc ctccttcacc cagcatagtg caattgagaa actttgttag ggtcaagaaa 14160 ctacgtaatt tgaaaaacca ctggtgtctg ataaatgtac agcagtcgtt cccagaagca 14220 ctattagtgg gttgaggtta gtttgttgtg gtgatagaga agccatttgc accactcctg 14280 gtggtcagta agttacatca gcagtggctg atatgattct tgactgaatc ctgtcaatta 14340 tgaaagttct tttttcccct catttaaata atattaccct gaaaattgat ctagagcttt 14400 ggaaactacc ccttgaaaac tgattcccca aatcataagt ttagtgtaat ttaattgttc 14460 tctatgcaga ggggaattag ttctttgcag ctactatggg tgatctcaac atgattttta 14520 tttgaaagtg actcagatga ataactgttc aggaggcttg gcaagcttct gcatatcaag 14580 cagtcgtttt ttgttgttgt tgaattcaga gagaaaagtt taagaaatgt gacaggctgg 14640 acctagggaa aggaaagagc aggaacaaga ccatttcctc aaacttgagg tcgatcatgt 14700 gaaaaacgaa tgtgatttat ttttggaatt aaagaaaaaa gtattttatg aagaggaaga 14760 ttaaagttta tatttagaaa attatccact aatggaagag acccttctnt tggaattttg 14820 actttggaag ctgcctcttt ccaacagcag agagcatctc gtgagagtgt tttaaagctg 14880 gtgacttgac aacactctca agagtgaact ctaaggacct ttcacactgt aagagccacc 14940 ccacagccat ctgtaatgca tgtggtatct aataggtagt taaatataaa gtcttgttga 15000 cagctgcttg aactcaaaat acaagactct tgccttcctg aagagaggac actaaacaaa 15060 actactttaa gagatggggt cttctttggg aggccgaggc gggtggatca tgaggtcagg 15120 agatcgagac catcctggct aacaaggtga aaccccgtct ctactaaaaa tacaaaaaat 15180 tagccgggcg cggtggcggg cacctgtagt cccagctact tgggaggctg aggcaggaga 15240 atggcgtgaa cccgggaagc ggagcttgca gtgagccgag attgcgccac tgcagtccgc 15300 agtccggcct gggcgacaga gcgagactct gtctcaaaaa aaaaaaaaaa aaaaaaaaaa 15360 gagatggggt cttgctgtgt tgcccaggct gggctcaagc gatcctccca ccttagcttc 15420 ctgagtagct gagatgacag gcatgtgcca cgactctcag ctaaaattgc ttcttgagat 15480 tccgcaccat atgcttctgc atcattgttg taaacttcag taatatgcta gatattgaca 15540 ttcaatatga atttctaaaa gaaggtgtat acctcaattc ttacatgacc atgatgctaa 15600 tttgtaggat gtttcattat aagaaacttt gagatttcaa tatgactata atcagcatgg 15660 gttataccat acagatattt tgctttcttt aatgggttgc tagactggaa gacaagtatt 15720 agacaaaatt ttattaatac tatctggcac acctatgaag gcataatagg cttaaaaacc 15780 cgttcagaca aggtagagaa atgcaagtat atcatcttaa gttactttcg tgagttacat 15840 ttggtagaga gtggtgagta atggattgat gtctactctg tgggaatcct gggtatacag 15900 aaggaacctg tcttcagcct tgtctgaaac aatattttct taatgatttc attgaagaca 15960 ggtggtaggc taaccacact tttgcataat atgaagttga acaggacatt taggatgtgg 16020 gatgactggt tacaaaaaga tctcaatggc taggaatgac aggatgaatt tacaaatgaa 16080 atcttaatca gaaacatgta gagtttactc tttaaaatga aagaacttgc cgggcgtagt 16140 ggctcacacc tgtaatccca gcactgtggg aggccgaggc gggcagatca caaagtcaag 16200 agattgcgac catcctggcc aacatggtga aaccctgtct ctgctaaaaa tacaaaaatt 16260 agctgggtgg ggtggtgcat gcctgtagtc ctagctactc gggaggctga ggcaggagaa 16320 tcacttgaac ccgggaggcg gaggatgaag caagctgaga ttgtgccact gcactccagt 16380 ctgggcaaca gagcgagact ctgtgagtgt gtgtgtgtgt gtgtgtgtgt gtgttcacac 16440 atacatgcac caacaatgga agaataggat gtcggacaca aggttttctc attgattttt 16500 gacttactct gaggttataa tgtaatgtaa ttgcaaaaag aattggttgc attaagagaa 16560 atatttacct agattcaaga ataaaccaga tgaaggctct tagcctatct tatattcttt 16620 tctagagtca ttactttaag aaatgcattg gcagcacaca ttattataca gtattaattt 16680 cctaggactg ctgtgacaaa gtactacaaa ctggatggtg tgaaacagca gaaatatctt 16740 ttctcaccat ctggaggcta aaagtccaaa atcaagatgc aaggaggttc atgctctctc 16800 tgagactcta ggggaggaga cttccttgtt tcttccagcc tctggtagcc tcaggtgttc 16860 cttgacttgt aacagtagaa ttccaatctc tgcttctatg ttcacatggc tgtcttacct 16920 ctgggtttat ttcttttgtc agaaaaccag ttctattaga ttagggctca ccttaataac 16980 ctaatgttaa cttgattaca tctgcaaaaa ccctatttgc aaataaggcc acattcacag 17040 gcactgagaa ttaggacttc aacatatctt ctttgagtac acaatgcaac ccataacaaa 17100 taccctttgc atcatacccg gtagtctttt aaatccttat tttcataaca accctgtgga 17160 atattgttaa ttataccata atattattag tataacaagt agtggttata gaagtggaat 17220 acttagtaga ggtaggatca ctgcatatag ctacagagtg tatattggac ataaagcaag 17280 aatattaatg gcaccccctg gacttgtgca taccatggcc ctgagggtgg gaatgcttta 17340 gacatggttt ataagtgtac ggtgtttgga gtatgtaacc tcaagttcct ttctgcctct 17400 aaagttgtgt gaaactacac aaactcagag tcacctcttt attacttatt acaacatctt 17460 tattactttt tcaaacaaat ctgtacatca acttggcttc ttgctgttca tctctatcag 17520 ctgaagctga acattcagtt tagctgtttt ttttttgttt gtttttgaga cggagtctca 17580 ctctgtcacc caggctgcag tgcaatggcg tggtctcagc tcactgcaac ctctgcctcc 17640 caggttcaag tgattctccc gcctcagcct cctgagtagc tgggactaca ggtatgtgcc 17700 accacacctg gctaattttt gtatttttag tagagacagg gctggtctca aactcctgac 17760 ctttgtgatc tgcctgcctc ggcctcccaa aatgctggga ttacaggtgt gagccaccgt 17820 gcctggcctt agctgttttt attgaagaag ttagctgtcc tctaagagct gctagtgctc 17880 tttatggagc attagtgaaa tctcaatatt gcctactata catggcttct ggtggtagag 17940 tgtcttaaac tagtcttctc tgattttgaa tagtgtcaaa tgctggcact gccaaggggc 18000 ttgatctatt catgcttgtg tgttgcatat aaagggctag taagaacatt cttttaaagc 18060 tattgtgaaa tttttgaaac ataaaaaagt aatgtgatga atccctacat atgcctcacc 18120 cagactgaac aaatattgac attttgccac actgacttta tttattcttt attttctgtt 18180 ttactttgta ttggctgaaa tgttgtaaag aaaatcgcag atattacatc atttcaccct 18240 acatatttct gagtgtattt cttacaaata gagattttct ttccaaaatt caatgtcatt 18300 aatctacctg acaaaattcg ttatttcttg atagcacctc ttaataatcg gtatgtaatg 18360 gatttcccca attgcctcaa aaatgtcttt atacagtggc tatgcttgaa tcagcattga 18420 aataacaccc actcattgca cttggtgggt atgtacctaa agtttctttg attctagggt 18480 agtacttcct tcccactcag ttttcaatgc cattgactta ttgaaaaaga aaagtcaatt 18540 ttctgcagaa tatctcacat ctttccatgt gttctcctct tggggttgtt taacttgttc 18600 ctcaatcttc cacaatttct gtgaactaga agttctcctt gaaggttgga ttagattcag 18660 gttcaacttt tttggctgga acactgtgta ggtgatactg agtgcttcat attacatcac 18720 accaggaggc acacaatgtc tcgttgtgcc attcttagtc atgctgagat taaccagtgg 18780 gttcatgtgg taccagccca atcaccctcc attttaatat ttgtctgaat taacagtttc 18840 attaggggtt gcaaaatagt gatttttttt tctaattctt accacattta ttagctgaaa 18900 attttctatt aaaaactgtt cctttttcag ctatagatat ttttgtacta tgaaacacaa 18960 ttcttccagg taaagcagat gataagctta ttttcttcca ttttaattgc aggttcttag 19020 aaaagagagt tgatacgtgt ttagctggga cagtgggtga gcttcatgta agtgaataaa 19080 gtgctttgat ttgtgtcaag ccattccttg tcagatggag gagaagtctt ccaacagttt 19140 ctgcttactg caacagcagt agtaaaatga cattaaaaaa aaagacttgt tggtttttgc 19200 taacaggaat gaaatgcaaa ccttctggaa acctgaattc aattagacat cttctgataa 19260 tgttttctgt taatagcttt cagagaagct actgagttga acatacagta gcttcagtat 19320 ggtgtaatct gaggctcatt ggatggaaaa acagtacttt ctgctacttt aaacactctc 19380 tggaaggctt agagaggaga ggaaggaaaa tatttgagga gatcaactgg atgttgtaga 19440 atacaagtaa tgtcacctga gaaggattaa gttttctcaa agcttgtctt gaatggcagc 19500 tagccactta gatttggccc ttgtaaccca tcaggcttgt ctgtttctgt gcactcttgt 19560 cttttctttt tctttttctt tttttctttt ttttgagatg gagttttgct ctttgtagcc 19620 caggctgaag tgcaatggca cgatctctgc tcactgtaac ctctgcctcc tgggttcaag 19680 tgattctcct gcctcagcct cccaagaagc tgggattaca ggcacccacc accatgccca 19740 gctaattttt gtatttttag tagagatggg gtttcaccat gttggccagg ctggtctgga 19800 actactgatc tcaggtgatc cgcccacctt ggcctcccaa agtgctggga ttacagatgt 19860 gagctaccac gcccagcctg ctgtgcagtc tttaacttaa catataaaga aggggcctag 19920 agattacatg tcttctgtgg gcaggggaca gtaaagtttt tttttttttt ttattccttc 19980 tgcttattag gtgcagctgg ctctttctaa ttacagaaac ctttccttta ttcatttaaa 20040 aacttagctc attgctttga atcattacta ttggcatagt ttttgtatga cctgttgaaa 20100 gatacccata atatgtacat ttaacagttt tactatccag tgaagtcaaa aatttaattc 20160 acacgaatgc ctattgagag gattaaaggg ctcattatac attttggcca taagtattat 20220 gaatatacaa tatttaatac gtggctcgta aaactcttgc tggagtaaga caacactgga 20280 ggtgtgtgct tttcttacta gtaaagtgcc ttcgtagtac tcttcttttt tttttttttt 20340 ttcaatttct gagatacatg tgcagaatgt acaggtttgt tacataggta tacatgtgcc 20400 acgtggtttg ctgcacctat taacacgtca tctaggtatt gtagtactct ttttttttta 20460 acttatactt taaattctag ggtacatgtg cacaatgcgc aggttcgtta catatgtata 20520 cataggccat gttggtgtgc tgcacccatt aactcatcat ttacattagg tatatatcct 20580 aatgctatcc ctcccccttc tccccacccc acaacaggcc ccggtgtgtg atgttcccca 20640 tcctgtgtcc aagtgttcta attgttcagt tcccaactat gagtgagaac atggggtgtt 20700 cggctttgtc cctgtgatag tttgttgaga atgatggttt ccagcttcat ccatgtccct 20760 acaaaggaca tgtactcatc cttgtttatg gctgcatagt attccatggt gtatatnnnn 20820 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 20880 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 20940 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 21000 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 21060 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 21120 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 21180 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 21240 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 21300 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 21360 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 21420 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 21480 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 21540 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 21600 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 21660 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 21720 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 21780 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 21840 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 21900 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 21960 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 22020 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 22080 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 22140 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 22200 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 22260 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 22320 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 22380 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 22440 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 22500 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 22560 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 22620 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 22680 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 22740 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 22800 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 22860 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 22920 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 22980 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 23040 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 23100 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 23160 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 23220 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 23280 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 23340 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 23400 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 23460 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 23520 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 23580 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 23640 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 23700 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 23760 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 23820 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 23880 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 23940 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 24000 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 24060 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 24120 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 24180 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 24240 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 24300 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 24360 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 24420 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 24480 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 24540 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 24600 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 24660 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 24720 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 24780 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 24840 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 24900 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 24960 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 25020 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 25080 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 25140 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 25200 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 25260 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 25320 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 25380 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 25440 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 25500 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 25560 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 25620 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 25680 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 25740 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 25800 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 25860 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 25920 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 25980 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 26040 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 26100 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 26160 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 26220 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 26280 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 26340 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 26400 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 26460 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 26520 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 26580 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 26640 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 26700 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 26760 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 26820 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 26880 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 26940 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 27000 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 27060 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 27120 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 27180 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 27240 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 27300 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 27360 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 27420 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 27480 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 27540 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 27600 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 27660 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 27720 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 27780 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 27840 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 27900 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 27960 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 28020 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 28080 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 28140 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 28200 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnntgg 28260 aactagaaat accagttaat acactataat cacttattga gcatttacta tgtgccaggc 28320 atagtgttgg ttttcttttt tctttttctt ttcttttctt tttttttttt tttttttttg 28380 agacgggtct ggctctgtgt cacccaggct ggagtgcagt ggtgccatct tggttcactg 28440 cagccttgac ctcttgggct caagtgatcc tctcacctca gcctcccaag tagccgggac 28500 cacagatgtg taccaccagg cctgcctatt tttttttgta tatttttata gagatggggt 28560 tttgccatgt tgcccaggct ggtgtcaaac tcctgagctc aagcgatctg cctgctttgg 28620 cctcccaaag tgctgggatt acaggtgtga gtcactatgc ttacaagatt gggcccaagc 28680 gtaggttttg ttgttgttgt tgttgccttt ttaaagaaca cacatactta ttagcttaca 28740 gcatctgtgg agcataagac tccgggcata gcctaaggta acttctctgc tgcaggatct 28800 catttgatta taaatgtcca ataatacaaa tttcatgttt cagtggtgag actgtagtca 28860 agaaaaaacc aattccccta taatacataa tctctgcagg caagcatagt ttttaaggtt 28920 acatattatt taatcctcaa atgaccttgt gaggtagacc tatttttctc tccatcttaa 28980 agatgaatct gagggaccag agggtgaatg gtttgtctaa gttcagagct aataagtgat 29040 ggaactagaa ttctatctag gcattctgac ccagccatgc tcttaaccac gagatggaaa 29100 tgtgaagctg tcaatctcac tgccagttgt tctccaggat attgtactaa ttataattct 29160 gtaggtggga gatgttgggc atattgcctt gagccattga taattttttt tttaacgtct 29220 tgttggcctg ttcctgttgt ggataaaaat aaacatctcc cttatcccca agaaatttag 29280 tatttaaata gggaaacaaa gcattctttc ccacatttcc tggctccaaa taacattaat 29340 atctacttag ttgcttaaat agtccttgtt ttctcctcaa cacccattat ttttacaccc 29400 tcttttcagt atgttttgaa ctccttttct tctaagtcgg ctgccatttt gtaggccagg 29460 atgtcaccat cttccgaacc tgtccatggc cttcccactg atctttctgt gatccattct 29520 ccttaggaca gccaagaatt gcttataaaa tgaaaatcag caattctccc ccccatttaa 29580 atgcttcagt ggatttctat tacacctcaa ataaaacaaa ctcctcgcct agcctggaag 29640 cctctctgtg acctgtctgc ctctgcctcc tccaactctc ctttcattat ctcagtccta 29700 ttgggcttct ttctgtctct catacactct tgacttcctc ctgtctcatt acctttgcat 29760 ttgctgttca ctctgtctag aaagctcttt actcgtgttt ttcacaacta gcttgatcct 29820 ttcacagtaa ctgtatctaa agcagcacat ttttattttc tgttttcttt tctttttctt 29880 ttgatacaag gtcttgctct gtcacccagg ctggagtgca gtggtgcgat ctcagctcac 29940 tgtagcctcg acctcctggg ctcaagcgat cctcccacct cagccccctg agtagctggg 30000 actacaggca cgcaccacca cacccggcta atcgttgttt tgttttgttt tgttagagac 30060 agggttttgc tttgttgccc aggcttgtct tgaactcctg agctcaagcg atctgcccac 30120 cccagccttc caaagtgctg ggattagagg cacgagccac cctgcccagc ccttttccgt 30180 tttctgtagt aaactatgag gaccaggact agggtgcggc aagagggggc cttagggcac 30240 aaaatggaag gcgtatgctt gccagcctga gaaccagtgc ctccttgcat tttacatgct 30300 aggcgcctca cttattgtgc cctacatcta gctctgctct gttgtatcca ctgcttattt 30360 cttaaacact ctagaatttt ctttgttcct gtggcagaga acactgtcta tcaaaatcct 30420 tttcttttgc ctcttggggc tgtcgctaga ctatgtttcc caacccctcg tggagttagg 30480 ggtggctgtg ggcctgagtt ttgactcatg gaatatgggt ggaagtgata tatttactac 30540 ttccaggcct ggccccagta aacctcctgt agaagagtct ctcactcttt gtgtgtctgc 30600 caccttggtg caggggatct agccctttct ctgagcctct gtaggatgtt ggggccacca 30660 gtgaaaagag cttgggtacc taaatgagtt tgtcaaagtc ttcctgctgc aaatctccac 30720 tggaccctgc ttgagcaaga aaggaagttt tgtgtcaagt cactgagaca ttgaggtttg 30780 tccctctaag aagctagcac tgtgtgccct caccagtaca ggctctctta tctccaccag 30840 agtttctgaa cataagatcc aaaagggtga gagccttgtt tacattgtat caccagtgcc 30900 caggagagtg tctgttgcag gtatccaata aataattttt tcaacaaatg catcatataa 30960 atactaacat aaaaacaact cgagagagtg ctgaaataat gatatacata ggaaatacat 31020 tcggggttca aaggggaagg agcactgtgg atttcaagaa aatggggact tgagttagct 31080 tattttaaat tttctttggt agagacagga tctcgctctg ctgcccaggc tggggtgcta 31140 actcttaagt atatggtatt cactgtatat aaagtggttc ttacgtttct tagccagtaa 31200 tgttttgaaa acatattcca aaggcatagg gcagtgattt cacaccaaaa gtatagaatt 31260 gtaataactt gtagattttt taggctttta ataggatttt aatcacatat taagtcatgt 31320 caaatcattt ttatagttac atgcctataa ctagaaaata ttaaatttct tccctttatt 31380 tcttactatg tccagtatat ttgaactctt attttaaaaa tgtcttaatt gatgtaacag 31440 agaagtaatg tctgctttta ttatatagtg taaatcattg gctttttcaa gattcactag 31500 attgctttgc ttgcctagtt atagaaacgt tagatggggc ttggttgcat tccttctagg 31560 aatatctgtg ggctctaagg agagggcatt gtttgacatt gaactgttga tgggaaggat 31620 ttttggtcaa gaggaaggat ttccaactct tttaagaaga gaatctgttt ttaatttctt 31680 ggaagccttg agattctagg tatggaggaa gacaggccag aggagatgaa cacttctgct 31740 gatgaagttt ctgggtggat gggaatatgg agtgcatcac tgctaactgt gggtgccttt 31800 tccccaagaa gctctcctgc aagccatgtg aggacagatt gtggagtggc agcaggtaac 31860 cgaggttgta ctatctagca gatcaagata cactcagtcc cccagttgag acctagaata 31920 cgtaaaatcc aagaccttta ttcctactca tatcctgaag tcactggtaa aataataccc 31980 tacctaggtt agcactaaca actcttgact agctctgcca caaactgtat atatatatgt 32040 gtaagagaga taacttaaag gcaccttttt accatgtttc ctgcctattt aaaataaaag 32100 tttggactat atgatcccaa gagccgttct accaataaaa ttcatatttc tattagtcat 32160 ttggtccaga tgttcacact gatttaaaaa tcttccatct cttaattgtt gtgtaatgtt 32220 gatccgatta tttcatatct ctatacctca gttttcctgc ttttaaaatg ggagtaatag 32280 tagttatcta gtttataatt ttgtcgtgag aattaattgg atggtgtgtg ccgagccctt 32340 ggaacatggc aagtgtgcgg tgaccattag ctgctgctag ttgaatttcc cagttgctta 32400 ctctgtggac attttcttgc tcatatttgc ttcccataac aggttattaa taaattctcc 32460 atgctttgga aagattccct gaaacacttt aaaattcatt ctaattccag tgaattacta 32520 aagtaatact tctaaaatat ataggaattt gagaaaaggt acaattttat caacattgat 32580 aaacaatata ttaagtatta ataaagcata tattgatcat gattctgggg aatacatccc 32640 tgttggaagt ctgtgtcaaa atcataggta agtttgagtt tctcacaaga acgagctttt 32700 acttttaaac tggctgcttc tggtgaagaa tagaaaatgt gcgtgtacac agaggccaaa 32760 ttttgctagc taaggtacaa aatatactta taaaaagtaa tcagttcata gaaacatgca 32820 aatctagatc tctaagtctg catatattta atttcctggc tttctatatg atccagtttc 32880 tgtatgatct agcttgatat aagtaggttt gtttcactgg gagaatgagt cattttagag 32940 atactccacc agctgaaaaa gctaaatgtt ttcatagtta ttatcatagc attttcacta 33000 cttaaatata catacaaacc aatataacac gtgcattgct cagtttggtg caagttacca 33060 atgaactagg atggaaatgc ccctgcctcc accaccctcc aacccatgcc aaacccctta 33120 agaaacaaat ttacttaacc ctggttgtgc atgtgatttg agttctttgg tgatagttta 33180 attgaaaggg cagacttcag agaccagtct tgagctggag tcccagatgg gagtcagctc 33240 tcatcatgac tatagtcttg gaatatttct gggcctcatg ttgaaggaat ggatctgagt 33300 attggattta tactacctct cctgtttctg aatattcact gtctgtgttt atttactgga 33360 atggtattca gtaccattta gatgctccac ttgtcctttc acaatgtgtt atatcccagt 33420 tctgataaga ccctgagtct tctgccctgc tctcaaacca ttcacgcatt gctattttta 33480 ttgcttaggc ctttaggtaa ttggtagtgt tcttaacatt tcttttagat gatttgactt 33540 ccagtctaca catcttctga cactgcagaa agcagccagt tccaaagaaa acattttttg 33600 tagccgtttt ttccccctgc tggtggaact gcaaaacctc aaaccttcac tatgccaaat 33660 ttggagtctt ggttgctacc ccttcctctc ccctccagct acctttgtca tgttcagtct 33720 caacttggtg actgccagtg gcacacattc tagattattt tatagtaata agcatcctat 33780 attaacattt agatgaactt ttaaaaagtc aactactttt attccctccc ttacaatttc 33840 aattagtttt tctctttctt caccaaattt attaattttg aagttaaagg gtacagtggg 33900 gctagagaag attttgctca ttgcttaaag ccctgcagtg ttcttcagct cttgcataca 33960 tccttacaca tggttttgat tttatggtat aagagggttt ttcacttctt gactcatttg 34020 tggcatgttg ctgtagccat cactgtaatt aatctcctag gaagaaatct gaaggttcaa 34080 gtcaattaaa aaaagtgaac ccaggaacaa gtagcttagc aacatttccc cccaacccag 34140 aggattcttt tgtccttgga gttggaggta gtctttctct ctgatcttga agagcatatt 34200 cggccacttc tttccctgcc tcaccctccc cactaccaac gtggagggtg gtgagaggga 34260 gccagagttc aggtcctgtt caacatttgc tagatagtgg cagccgtttt ccctgcagac 34320 tgtttcagtt atccatgctt gcaacttatt tctttgcttt gttcattcca aatgggattt 34380 tattaatgcc accttgcctc cttttgttac ttcaaaatta aaagtgaggt tttctttttt 34440 ttaaactgga aataaccagg aacatagaat agtaaaataa aaatctacat acttatggtc 34500 tagaataaaa aaattaatat atttccatat ttactttatc aatctatata tacatacctt 34560 tattacttat ttttaacagg taaactatag atatttagaa tgatcctatg aaagaaacag 34620 gagattattc aaaatcataa atctcactct tgcacaaact cttctaaaat taagcattgt 34680 tataattaac cgatccatac ctcaaatcca aaatcttatg aaaaccaata ttccagcaac 34740 ttactttcat tgggaggctt tttctaggac tgtggaaaat ctgaaaatgc aataggtata 34800 aaacaaatag atcttagaaa caaaagtggt ttgaaggata ctgaaggttt cctaatgttg 34860 acttaattat agtagaaaaa gtacaacagt gagtgatctg tgattccccc caacccctcc 34920 tgcatgagat tatggaatta tatacataat agagagaatt taagttttat aattccaagc 34980 ttagggtaca aaagaaacag gatggaaata gttttggggg gttctttcta aatgttagga 35040 ttttaaaggt acagtaaagc ctaagatata tgtaactcta tagaatgtgt catttgccca 35100 aaggattata aatcattctg taaagacaca tgcagttgta tgtttattgc agcactgttt 35160 acaatagcaa agacttggaa ccaacccaca tgcccattaa tgacagactg gataaagaaa 35220 atgtggcaca tatacaccat ggaatactat gtagccataa aaaagaatga gttcatgtcc 35280 tttgcaggga catggatgaa cctggaaacc atcattctca gcaaattaac acaggaacag 35340 aaaaccaaac accgcatgtt ctcacccata agtgggagtt gaataatgag aacacatgga 35400 cacaggaagg ggggaacatc acatactggg gcctgtcagt gtgggggcaa ggggagggag 35460 agcatgagga caaatactta atgcctgcgg ggcttaaaac ctagataatg ggttaatagg 35520 tgcagcaaac caccatggca catgtagacc tatgtaacaa acctgcatgt tctgcacatg 35580 tatcccagaa tctaaagtaa ttttttttta aaaaagatgc atgtattctt taaaaaaaga 35640 aaaaaaagtc ccagccaaaa aacaagggtc attttggaaa gctaagattc caggtagatg 35700 aaaatgaata tatcgtgtgg ttgggctgat gttattttat ttattttatt cttttattat 35760 actttaagtt ctagggtaca tgtgcagaac gtgcaggttt gatacatagg tatacgtgtg 35820 ccatgttggt ttgctgcacc catcaactca tcatttacat taggtatttc tcctaatgct 35880 atccgtcccc cagttcccca ccctccgaca ggcctcagaa gtaaagtact tctcagcaaa 35940 tgtaaaagaa cagaaatcac aacaaactgt ctctcagacc acagtgcaat caaattagaa 36000 ctcaggatta agaaattcac tcaaaaccac acaactacac ggaaactgaa caacttgctc 36060 ctgaatgact actggctaaa caacgaaatg aaggcagaaa taacgatgtt ctttgaaacc 36120 aatgggaaca aagacacaat gtaccagaat ctctgggaca catttaaagc agtgagtaga 36180 gggaaatttg tagcactaaa tacccacaag agaaagcagg aaagatctaa aattgacacc 36240 ctaacatcac aattaaaaga actagagaag caagagcaaa cacattcaaa agctagcaga 36300 aggcaagaaa taactaagat cagagcagaa ctgaaggaga tagagacaca aaaaaccctt 36360 caaaaaatca gtgaatccag gagcgggttt tttgaaaaga tcaacaaaat tgatagaccg 36420 ctaacaagac taaaaagaaa agagagaaga atcaaataga cacaataaaa aatgataaag 36480 gagatatctg ccaccaatcc cacagaaaat gaatatttta agtgttggaa ctttaagaaa 36540 cacatcaatt ttcttaacat tactaaagtg ctatggtttt aatacatgag ggtaagaatc 36600 acgagattac tttgtgactt tgttctatct agttgcagct ataatgctat tgtgcaactc 36660 agtgagggat gcaaagggca gtagaggttg acagcttagc tccactcccc cttgtcagtg 36720 ttctggagtt ggctttctta aaagtccccc atgactttct tacaagctga tgtgaaacac 36780 ataatgagag gcaaggtgct tattggatag catcctaggt cacagctgtg tgtctttagg 36840 aagttgctca acctctcttg gccttaattt tccaacctgc taaatgaagg cgagtagtat 36900 ctacctcctt aggataattg tgaggattca atagcaatac ctaagaagca cgcggcatag 36960 tacttagcac ataataaagg caaaaagttc tgttaattat cttctgcagg attatttaac 37020 ataatttgtt ctctaaagaa tagagaaaaa ttatttgtgt caatctctta acctgcccca 37080 ttacctcgaa tgaatattat agacacagta ggatcacagg ctgctgctgc tgcttttttt 37140 tttttttctc cctgagccgg agtcttgctc tctcacccat gctggagtgc agtggcatga 37200 tcttggttca ctgcaacctc tgcctcccgg gttcaagcaa ttctcctgcc tcagcctccc 37260 aaatagctgg gactacaggt atgtgccacc atgtctggct aatgtttttg atatttttaa 37320 tagagacggg gtttcactat gttggtcagg gtggtctcga actcctgacc tcaaatggtc 37380 cacctgcctt ggcctccaaa agtgctggga ttacaggcat gagccaccat gcctgaccac 37440 aggcttccaa aaggcatcca cttcaattga atgaatagaa gcactgctca gcagcctttc 37500 aagaattttc ctgagcatct ctttctacaa ctttaatttt gttaaaaaat aattttccta 37560 aggtattttg aagagcatat atggtcaagt gtgccaattc ttcatcatta tcacaagata 37620 gcacttcttt caagacatga agtcacaaaa tccccagagt ttccttgcat atactaggca 37680 tggcctctga catatgaagg attaagaatt gcttaaatat gtgtaacagg attgaaagct 37740 ttgagtaatg tcttctgtta catgattaaa tgttgcattc actaataata cttcatatcc 37800 tggataatac tgataacaag tattataatg aagagcagga aggtgataaa aatattacca 37860 attgctcgtc ctgcatcttt ggagtgacca ctggcaagga aatggctttc tggcagctca 37920 gccctgctta ccactcatgc ctctacgtgc tactttctgc ttctgactca tggagcttct 37980 aggctcattt ttatgatttt ctcctttctc tctctttaac ctttcttgac tttttcccac 38040 ttcagatact tggaatcaac tattgtcctt gggaatgatt actatatata tttatttttt 38100 cagttatatc ttctgactgg gtaaaaggtg ttttgcctgc acaactgaat ggtttatttt 38160 atttgtagaa aacctgtact gtgaattgcc cttaacaatt gtgttgggag ggggaattaa 38220 tagggtgaat atttaaattc ttgtttattt catgtgtaac ttggcaaaat tgcataccct 38280 gatatgactt gaattataga cttgaagcat gcactgtttc aaaccacggg tgtgcctgtg 38340 tagttaatag agcagttttt tttgtttgtt tgtttgcaaa tgatgctttt gtttcaaggt 38400 gcccaatttc agcccaagaa aaaagtttgc atagcctgat atgttacaag attattcttt 38460 ccctaaacga atggtttaag aaaatggtca gtgaccattt tctttgctag tcttagttct 38520 ctttattttt cccctttata tcatatcata ttcacatctt aatggtttag tctaccactg 38580 aatacataat tttctttcta atcttttgaa tagtctaaaa gaagtacttg ttaaatgttt 38640 catggtgtat gtggtgtgag aaaaatctat aattgttctt gatttggaca tttcacaagg 38700 caatcaaacc ccagatatta taagccaaga taaatgatag cacattttat ctttgcattt 38760 gtgaaatctt attacactgt tctgcaaatg tataaacgtt ttcttttcat aaagccgtag 38820 gcctaaatta tagctgctca ttaacaaatg gtttccatac tcggaaatgt gtgcgggcaa 38880 gccttattca agcagcagca gctatcattt gcattgtctg gagtagtact gggtcattta 38940 gcatttaaca atacctgtct tggctttttg gctctctaag aggtgtctca tgttttattg 39000 aatatttact tatgtatgcc tgagatgtag agattctcca attcagtgaa taaagttgac 39060 aaggtaaaaa ggaaaagacc taaaaagtag ctatgtttta tattacacag tttaattcca 39120 accatatagg tggttggaga tatattccgg agtgtcgact ctgtggcagg ctgaatgcag 39180 taaacagtta gcaaattgtt cacatgtttt cccctgcaac acactaatgt aagtcttttc 39240 agatgtatgt atcagtataa catatacaga caagatggct atcttttaat gtccagaaaa 39300 ggtgaacatt actcagttaa ccttgtgttg cagctacata tggctcagac atatctgccc 39360 tcccaacaaa aatgttgtaa tatttgtgag tttcagtatt tgtggatagt gaatgaaaca 39420 tacttcttta tactcctgaa tgtatcatat tatataataa acagagaaag gaactaatgt 39480 tctccgaatg tttgaatttt gagcccaagt gtctaataca tggactaatg tattttaata 39540 aaaatggtct aataaaaaca ttaatgttat ttcttgacct atacaggaat tttgactttt 39600 gggtcatagc cattctgact gatgtgagat ggtatctctt tgtggtttta atttatattt 39660 ctctgatgat gagtgatagg gagcattttt tcatgttggc cgcttatgtc ttcttttgag 39720 aagtgtctgt tcatatcctt tgcccatttt ttaatggagt tatttgtttt ttcttgttaa 39780 attgtttaag ttcctcatag attctagata ttaggccttt gtcagatatg ttgtttgtga 39840 gtattttctc ccattctgta ggctgtgtgt ttactctgtt gatagtgtct ttttctctgc 39900 agaggctgtt tagtttaatt aggtcctact ggtcaatttt tgtttttatt acaattgctt 39960 ttgaggcctt agtcataaat tctttgccaa ggctgatgtc cagaacagta tttcctaggt 40020 tcttcgagga ttcttacagt ttaaggtctt acatttaaag ctttaatcta tcttgagtta 40080 acttttgtat acggtgaaag gtagggggtc cagtttcatc cttctgcata tagctaacca 40140 gctatccagc atcatttatt tagtagggaa cgcttctaca ctgatgggag tgtaaattag 40200 tttagccact gtggaaagca gtttggagat ttctcaaata gcttaaaaca gaactatcat 40260 ttgacccaac aatatcatta ccacgtatat acccaaagaa aaataactac aaaaaagaca 40320 catgcacatg tatgttcatt gcagcactgc tcacaatagc aaagacatgg aatcaatcta 40380 gatgcccatc aatggtgaat tgaataaaga aaatatggta catatatacc aggtaatact 40440 acacagccat aaaaaggaat aaaataatgt cctttgcagg aatatggacg cagctttagg 40500 ctgttatcct atgcgagtta atgcagagac agaaaaccaa atactgcatg ttcttactta 40560 aaagtgagaa tattgggtac acatggaaat gaagatggga ctctgagagt gcacagagag 40620 gggggtaatt gaaaaattac ctgttgggta ctatgctcac tacctgtgtg atgggattat 40680 ttgtacccca aacatcagca tcatacaata tatgcatata acaaacctgc gtgtgtatcc 40740 cctgaacata aaataattac aaaaaaacac aaaacctctc cccagaaaag acttcttccc 40800 atcctgatca cttcctaaat aaatgcactt agcttttctt tttttttttt cagacaacag 40860 aatcagtgat attttgactg taaacccact ttaggtagga tagtggcata accattggga 40920 cctaataagc ttttcatgga gcttggattc atagaacaaa aaatctatta agaccctact 40980 gggtatcagg cattgtgcta gaagtgatta gtattactat tattatttat aagccagtaa 41040 aaacattgct tttgtattga cttttttttt aaaagtagaa aactgaggtt tttaaaaact 41100 tatttctaaa gctgagtttg ataataattc ctggtcatta agacaatgtt ttgcacaagt 41160 aactctttca tttcactgtt cttgcctccc agagacttct ttcctttcct catccctgct 41220 cggacagcca gaaccagcct gcagaacttt tacattcctt tgcttcttgc ctggctatca 41280 cagttgtaaa gttcagccaa gttgccatgg gtatctcttt aattttcttt caaattaaac 41340 atggaatgag agaatgttgg catgcctcag gacgagaggt gctaagacta tctttttttt 41400 ttttccaaga tacttttttc ccccaaagta tatgagtaaa aaaatagaac caaattaacc 41460 attctgtagc aacttagcaa aagagtagac acaattttaa aaataatttc tcttttgttc 41520 cttagtatga accaagtatg acttctttga cactgttaga gaaataaaac agatgaaatg 41580 taatccttta ccttgccaga cccagaaaga ccacaatgga ggtctctata tgggcagacc 41640 agtgcctctc actgagttgt tgttcctgct tttatctctc tgaggcttgt actaaaaaac 41700 atgcaggatt ttaaagtgac aaaacattaa cattctatgt aaacagagca agtattttaa 41760 tcaaaacaaa cttcccgcta caaattgagt acacttaccc ttaaggttta aaagccccat 41820 ttatcaaggc acttgctgtt ccataattgc tcttatcttc cactcttcct cactcacaaa 41880 ctgcctgagg ctgtttgcag tttcacagcc tttatctgag gctatttaat gcctcttccc 41940 catccaatag taatacaact gtttattttt gttgtttttt ttgtatactc aggatgtttt 42000 agccgtgtcc tttataagtg tttatttcat ttgctccttg caacagcagt atgtggttga 42060 tatggagtat gaagctcata ggcaaggggt taaaggagca aagatgtgag gtgagaagct 42120 cttacagcta tcatgtgaag gaaggagggt ctaaagctgg gcctgactcc aaacaaagcc 42180 tttgattccc agtttcccag ttttgtgctg cttgctcatc tgccagtttc atgcatcctt 42240 catctgtgac ccttcattgt tgggccattg ttgccccagc cgtaaagcca tactgcactt 42300 accattagtg aatcctcctg aagcactcat tggctcctta cttctccaag ctccccactt 42360 tgtcatttgg gttccctagc tgtcagctat gttaatcaca aagttgcttc aattcttttt 42420 tttacagcta gttcatccat cttattgcca ttctaattaa cttggcagtt aatgagcacg 42480 gcacgggtat tgagctgtaa tgagacttgg gttgcaggta atcatgactc ttttctggaa 42540 tcttcctctt gtgaagactg ctcgtctcat atctccggat ttccttgaag ggaagggctg 42600 cttctcatta ctctgtagcc ctgcttagtt gttatttcct actgtcatta ttggacagtc 42660 tcctttgtag tctactgcat tcattcatgc tgtcttcccc cacgttatca ccagtccaca 42720 gacctttggg gtcttccttc atgatcctcc tttaacttcc tcacccttac tcaatagggt 42780 ttctttaaac tcagcaccag taggtaccat gtgggtgact caggtagagc ttgtccttga 42840 ttttcttttc ttctcaatta cctgacgaag tgaccttgag acccttcaat ctctcaattc 42900 tgaaatttgt gtctcctctt gaatacaatt tacattgctg aactgttcct taccatcact 42960 tagatgcact tgttctttgg ccttgttgta actacaggtc cttgaatttc attctgggta 43020 tttattattt ttactatttt tttaaacact gttagatatt ggtagaccca ggattctaaa 43080 tggacccatg gtcatcttcc aggctgccat ctttattatc ctactccctt cccctttgac 43140 ctgttgtgat gccaaccccc tgctgcctag ggaggtttaa tgtgcttttt ggtctcagtt 43200 gggatttact ctcctaggag cctctttttc catcattggt tttggactct ttattgcatt 43260 tccccaatag tgactcttcc aaatggtttt ctgtagtatt gatctttatt ctatggtgtc 43320 ttttatcact ctgataacaa ccctgtcact taatttacta ataagattaa agatgttcac 43380 tgaaaagccc actaattctt ttctctcatt cccaccacac ttgcaatttg ctgttggcat 43440 aacccactgt cttcttaaaa gctgctttat tcatcaattc ttctaaattt atttttttct 43500 tcctatttca gatgaaggtg gggcctgttg cttttgctgt tggtctcaat ttctcttcta 43560 aaccttgttc ttggatatga tctcttccat gtgtatcttc tctcattccc cagcaccatc 43620 tgcttttttg ttttcaaaga gttttaggta ttcttaatgt catacattaa ataaaaatgt 43680 cctttgactc tacagccctt aaaacgcagc atatttgctc ttaccattct tttctttgtc 43740 caattactta agggagaaat tattatcatc atagggctct tctttttttt tttttttttt 43800 tttgccactt tttgttttag ctctttctaa aatgttgtga ggagaaaaaa cctgattttt 43860 gttcacattt cagggatctc cttctcaatt gcttaacttt caaatctctc tagacaagcc 43920 ccgcattttc ctttgatgct ggaaagctca atgtacttgg ccaactagtc ctaaattgat 43980 ttcttttctg tacaccctgc cccagacaaa actaaacaaa tgtaaaaacc catgtctcca 44040 aattactgtt ttgctcaaca tttgaatttg ctgttgattt gagtgatacc tcagttcttt 44100 tctacaggtt ggcaatttga catcttcaaa tattctgttt tagacctcca caccccatct 44160 gttaccaaca cctgctatgt tttggttcat gaggaatcaa atccaccctt tgccaaattt 44220 cacattatca gcactcctgc ccagatcaat attttagcca tgattattgc aaaagtctcg 44280 taactaattt tcctctgtat ttgtcagccc ccttcctcca ttagttttac acctcaaacc 44340 acattagtca tcatctgatt actctttggt catgttgttc tcttgctcag attttggatc 44400 ttttcagtgc ctggaagata gttctcattt tcagtgtgat atttcatgtt ctgcctggtc 44460 tggacccaat ctacaacttt ttttctgaga ccatcgggga tttactctgg gcattggctg 44520 aacagcagca cttactattc cgaagcctgc cttgggtttt ttccccctgt accttttgcg 44580 ttcatgtttt ttttcttgtc taaagtgtct ttctttctct tcatctccct tctgattttg 44640 aagtctagcc tgtaagaccc agtctagatg ccttcagtgg agaagttcat ggattaaaaa 44700 agggattttc aatatttata acacactgtc tgttaatgta gctattttaa tgcctgttta 44760 tacaaccttc tggttggttg cttttcgagg acttcaacct tatctatttt cctatttctc 44820 agagccttct agaaatgggt gtttagtatt atttttcttg attaacccct tgattatact 44880 atttattatt tgacagtgag aaaggatgtc tttattcagg ctactataac aaagtaccat 44940 agactaggtg gcttgtaagc agcagaaact tatttcttac aattctggag gcacaggagt 45000 ccaaaattgg ggtgccagca tggtcattct ctggtgaggg acatcttggt ttgtagactg 45060 ccaacttctc attgtatcct cacatggcag aaagaccact aactaactct ctggcctctt 45120 cttctaaggg cactaatccc attcatgaga gatctacctt catgacctga tttacctacc 45180 ttcagatacc atcacattcg gggttaggtc ttaagaatgt gaacttaggg gacacaagca 45240 tctggtctat aacaaagcat acatgtgctt gacagctcag ttgtcactgg gatgctccta 45300 aggttgatgg gaagagacag agttgaggcc agcctagagt ggaggctgga tgggtggggg 45360 cctgttcatt atctggcttt gttttccctt ttgaaaggta ccttaagaca aaccaccttt 45420 caaatattgt tttccttttt taaattcata tatatattta tgaaaataca ctttaagcat 45480 tcttttattc taagcactaa agccagattg cctgggttgg aatcctggat ttactactta 45540 gtagctgggt gacgttgggt aagatatgga attctctgtg cttcattttc accccctgta 45600 taattgaact cataagatgg ttatgaatac taaatgagtt aatacctcta aaacaagcat 45660 tttaaacagt atggcatgta gtatattctc aattactggg aattaatatt actattaagt 45720 agtgaggaat tgctgcaagt aaaaggggga ggtattagaa cttgtaattt ctaattagtt 45780 ttccagatta ttaaagtgtt gtggtaatat atgaagatga gaatcactga tctaggaacc 45840 tgtaaaatac agagcatagt gaaagagaga ataaatggaa atgtcaggaa aaattattca 45900 atctagcctt gtgtttgttt tgttgtcata tacactagaa gactgatcta ctgatttaat 45960 tatttaagcc gttcaaaatg tggatactaa tttgtgatgt ctactagaca cttagcaaag 46020 catttatcaa ataacttcct aggtactgat aatataaata caggcatact tcagagataa 46080 tgtgggttgt gtttcagacc accacagtaa agtgagtcac acaaattttt ggtttcttcg 46140 tgcatatgtt tacactgtgc tgtagtctat taagtagcca atagccttat gtcgaaataa 46200 acaatgtaca ttctttaatt aaaaagtact ttattgctaa aaaaaaaaac ccactaacaa 46260 tcatctgagc cttcactgaa tcataatctg tttgctggta gagggtcttg ctttgatgtt 46320 gatggcagct gactgatcag tgtggtggtt gctgaaggtt ggggtgctgg tggcagtttt 46380 tttaaaagaa gacaacaatg tttgccacat tgatggactc ttcctttaat gaaatgttta 46440 tctgtagcat tgtgttgctg tttgataatg tcttatccat agtagcattt cttttagaat 46500 cggagtcaat cctgtcaaac cttgccactg ctttaattaa tcaactacat ttatgtaata 46560 ttctaaatca tctgttgttg tttccgtgat gtttatagca ttctcaccag gagtagattc 46620 catctcaaga aacactttct ttgcttatcc ataagaagca actcctcatc cattcaagtt 46680 ttatcatgaa attgtagcaa ttcagtcaca tcttcaggct tcacttctcc atctagttct 46740 cttgccattt ctaccatgtc tgcaattact cactccactg aagttttgaa cccctgaagt 46800 tatacatgag ggctggaatc tacttaactc ctgataatgt tgatattttg accttctccc 46860 atgaatcact aatgttttta atggcgtcta gaagggtgaa ccctttcctg gaggttttca 46920 atttactttt cccagattca ttagaggaat cactatatat ggcagctgta gccttatgaa 46980 atatttatta aataataaga cttgaaagtt gaaattactc cttgatccac tggctacata 47040 atggatcttg tgttagcagg catgaaaaca ttaatctcct tgtacatctc catcagagct 47100 cttggttgac ccaggtgcat tgtcaatgag tagtaggtct caacagcggg cttaaaacct 47160 tcagtaaacc atgctgtaaa caggtgtgct gtcatggagg ttttgttatt ccacttatag 47220 agcacaggca gagtagagct agtataattt ttaagggcca taagattttc aaggtgtaaa 47280 tgagcattgg cctccacttc aaatcactgg ctgcattagc ccctaacaag agagtcagcc 47340 tgttctttga agttagacat tcacatctct ctagctatga aaatcctggg tggcatcttc 47400 tcccagtagc aggcttttta atctacattt aaaaatctgt tttttagtgt agccaccttc 47460 atttcttcat taaatcttct agacaacttg ctgtagcttc tacatcaata cttactgttt 47520 cactttgcac tttcatgtta tggagatgac ttctttcctt aaacctcatg aaccaacctc 47580 tgctagcttc aaatttaact tctgcagctt cctcatctct ctcagtcttt gtagagttaa 47640 agagagttag gatcttgctc tggattaggc tttggcttaa aggaatgttc tggctggttt 47700 attcttctat ccagacttct aaaactttct ccacatcggt aatatggctg tttcacctat 47760 ctgtgttttc actagaatag cacttttaat gttcttcaag aacttttcct ttgcattcac 47820 aacttgaggg gcctagcttt tgacctatct tggcttttaa catgccctgc tcactaagct 47880 taatcacgtc tagtttttta tttaaagtga gagatatagg actcctcctc ttgaatactt 47940 agaggccact gtagggttac taattgtctt aatttcaata ttgttgtacc acagggcata 48000 gggaggcctg aggagagagt gagagagatg gcaacagtta gtggagcagt cagaacacac 48060 aacattgatt ggtcaagttt gccatcttat gtgggtgcag tttttggtgc cccaaaacaa 48120 ttacaaaagt aacatcaaag atcactgaac acagatcacc ataacagatt aataataatg 48180 aaaaatttta aatattgcaa gcattaccaa aatgtgacag aagaagggag ctcatgctgt 48240 tggaagaatg gtgccaatag acttgacgta aggttgccag aaaccttcaa tatataaaac 48300 aacaaccttc ctcccacctc acccccagca agaatcctgc aatatctgtg aagcacaata 48360 aagtgaaatg caagaaaatg agatattttt gtaacacgtg gtctttgttt tgggaatgtt 48420 caaacttgtg ggacaaatgg gtaaaggtat agctacagcc taacattgaa aagcgccatg 48480 gccacaggca tcacacaggt ctttatgatg tgccacaggc ttccttgcct gaatgacagt 48540 tcaggtcttg acagaaatgg ttgtcatagg tgcagaaact tgaaagatgg tcagttttgc 48600 agagggggca gagaggatct tttgctatat atgttagcat attttcagta aaccatgctg 48660 taaacagatg tgctgttatc caggctttgc tgctccattt atagcacaca ggcggaatag 48720 atttagcata attcttaagg gatctaggat ttttggaatg gtaaataagc attggtttca 48780 tttaaagtca ccagctgcat tcctaatgag ggtcagcctg aagtggggtg ttttttaggt 48840 tttgggtttt atttgcttaa tatctctaag gatagcaaat cacctgtatt agtttacctg 48900 gcatgaagga aatgcccatt gctaattcta ccaaattttc aaaaaaatac tttggatttt 48960 agaacaaact gaaaagttgc tgtctaatac ttggaggaca gtatgcctag attcataaga 49020 tgcctctggg tctctatctt tgtaatatat ttaccaaaat catgaaaaat gtttttatta 49080 gccagcatat agatagactt ggtggttccc aaacctgaaa atggtgaaag taacccaggg 49140 agcatttggt gactcaagag cccagttccc aatccagcga aactgaaaca gtctcttctg 49200 gggcaatctc agattctatg tctaggaatc aaaaatttaa gaactggtga ggaattgcct 49260 gtaatcccag cactttggga ggccgaggca ggcagatcat gaggtcagga gatcgaaacc 49320 atcctggcta acacggtgaa accccatctc tactaaaaat acaaaaaaat tagccgggca 49380 tggtggcggg tgcctgtagt cccagctact cgggaggctg aggcaggaga atggtgtgaa 49440 cccaggaggt ggagcttgca gtgagccaag atcgcgccac tgcactccag cctgcgcaac 49500 agagcgagac tccgtctcaa aacaaaaaca aaaacaaaaa caaacaaaca aaacaaaaaa 49560 acaaaacaaa aaaaagaact ggtgaggaat caacagtcac tataaatttg tgctaccgat 49620 gtggtaacta ctaattgtgt ctgtgttact atgaattcat acccaaaggt gagactaaac 49680 acagtaagaa aaccccccaa aaaaagagtt gacgcacagt aggaagtctc accaaattgt 49740 tgacttgttc ttacctggtg gcttacttat actaagaagg agttttaaga gacagtaatt 49800 caaagataat agtacaattc agaaaagcat tctaaagctc tattgctact tctagatact 49860 caggtaatct tttggtcttt ctgttatatt gtttccttgg aaaaggattc aatctctctg 49920 ttccccagct cttttttctc ttcctactaa ataagcaaag gtcaaaactt ggaagatgta 49980 ttttcctgga aagaacattc aatcgatttt attagttaat ataaaacatt tatgtgttat 50040 gataggatgg aaagcaaaac agtatttagg gaaaacagtt ggtaatattg ctcaaatcat 50100 gaagataata aagcttagct tctgtgtagg agtgcgactg gtcacaggtt atcacaagat 50160 taagtgttct gtgcgtgcac acccatcttt tcttgatatt tagtgcactt cacagactgg 50220 ccatttcaca atttgattat cacgtagctt tgaccataac cagggcacag caaaatctcc 50280 tattttgatg ctactgtgga ctcacaactt cttggctggg cctctgtaat tgttattctg 50340 agtcttaaat agaagggcca aaacaggaat tgagaatttt attatgaaat atttcagtca 50400 aaccacaaat aggagatacc tcctacaccc ataactcaga ttcaatgttt taaaatgttt 50460 ttctgtatat gcttcatctg tcctctccct tttgtctcag gcaaagcatt ttaaagcaaa 50520 tctctgatat catgtacttt atcctaacat acttccttct ttatgtataa aatcttcttt 50580 tacaaccacg atgccatcat aacacttact ataaaaatta acagtaattc ctcagggtca 50640 ctgaataccc accgtaacca aatttctcag actattccaa atatgtgtgt gtgtgtttaa 50700 aatagtttat ttgaatcaga atcttaggtg gggaaaagga tattttaaag acatatttaa 50760 agaacacttt attccttatg taattagaac aagtaaggag gggaaaaaaa acccccagaa 50820 cctcatggga tttcttaaat attttgtaga aggaactaat actttctttc aattttctgt 50880 ccttaggagc attatgatct atcccctgag aatgagcgat ccgatgcact ttttaaacaa 50940 tgtaaaccac agtttctggt ttaatgagag attacttttc acattgcatt ccatgtcagc 51000 acagatgcca tgatttcatg ttctaaagtt agtcctgcaa ttactgtttt gattgctctt 51060 agaaaaatgc acacaaagaa tacagtgact cagcgaaggg tgttgccagt gggttgtagt 51120 ttttagtttt cagatatgat ggaattgcac aaagaatgta caacttggtg ttgcattttt 51180 tctactcccc atgcctttct ttccacacat ggccaccagc accaagcatg cccagcctcc 51240 tttccaagac attgaaaaga gtctggaaaa cacagtatac aagtaaattg taaaaactcc 51300 atagcaagag ctgcttttta ataagaagct ctcagttctc ttgtcatcac aaagacttgt 51360 aaggctatac ttaaaaaata taattcagtg actccaaaga ggtctacttt tgaaaataaa 51420 ttgatgccca tatggcacct cagtctctgg ggtaattgaa tatttttatt caaaatatgt 51480 gagaggacac tctgacttga aaaagacatg gcacctgcct ctcaggcatg cttatcttac 51540 acggagggat gaacacaggt tatggagaag atcagtggct tagaggggag gaaggtagaa 51600 tctgagaggc cagctagata ttcttacagt gattcaggca caagttaatt agcagctgga 51660 ctggggtcat ggcattgggc accaagaaga gatgctagaa agctttagaa atatccgctc 51720 acattgatga catactggac cttggagatg aaagaaggtg gtggtgatca ataatttttt 51780 gctgcagtat acaataagaa atgctagact gggcacggtg gcttacactt gtaatatcca 51840 cactttgagt ggctgaggtg ggtgaattgc ttgaggccag aagttcgaga ccagcttggg 51900 taacatagcg agaccccgta tctacaaatt tttttttttt tttttttttt ttttctgaga 51960 cagagtcttg ctctgtcacc caggctagag tgcagtggtg cgatcttggc tcactgcaag 52020 cttcgcctcc cgggttcatg ccattctcct gccttagcct cccaagtagc tgggactaca 52080 ggtgcctgcc accacacccg gctaattttt agtagagatg gggtttcacc atgttagcca 52140 ggatggtctc gatctcctga ccttgtgatc cgcctgcctc ggcctcccaa agtaaaaaat 52200 ttttaaaatt agctagacat agtggtataa tcctgtagac gtagctactc aggaggctga 52260 ggcaggagga ctgcttgagc ccaggagttt gaggctgcag tgagctatga tgacactact 52320 gtacttcagc ctgggtgaca gagtgaggcc ctacctctta aaaaaggaaa aagaaaaaac 52380 aaaaaccctg cttattatgc ttctgaaaag agacagtagg ttggtaaggg gggagggttg 52440 attttcattt attttaatat cttaattttg aagtaataga caaggggaaa taatatgtat 52500 ctagggtatg tgactaggac acaaaataga aactggaatt attgatttgg aagataagta 52560 aagccattta tccatttatt catttatata actacattaa tgtaccagaa actgtattaa 52620 ggtgacagaa aaatttaaga gtgtttgcta tcaaggagtt catcatttag tgagaacaaa 52680 gacaaatgaa tggatccttg gatagacaat ctgggaacta tatgtgttat taaatgttta 52740 tgtatagtga tttgtaaatt tggtagactc aatagatgtt ttttctgaaa cttcctttcc 52800 tcttctctgc tttccttttc tattcttgtt ttcctattat ttttcttttt taaaaatctt 52860 aactttatag tagaacaagt gtgcaagatg ttatactgaa gttgttgaat ttaagaggca 52920 ggatagggtc agagcttgta tttggtctat atgcctgtgg tccagccata gctgtagctg 52980 tagctacaat ctgtaccaac tgtgtgatga tgtattgggt gactaccttc ctttccctct 53040 gccccctact gttctctgcc aatctaagtc accattgtag ctggtgggac aactaattgt 53100 gttacaggta aggtgtgggg catcaatcct attctattcc ttttcttttt ttttttcctc 53160 ttcttttctg cttgtgctag aaatggagaa agctagtcac tatatccaaa agattgcaaa 53220 taacctctgc agattgatgc atctcctgtt caaggtcatt ttttccctcc ttcacttaca 53280 gagagaaaca aatcagaaac aaagttcact aaccaaaatt tcaaacttta acattcccag 53340 tgtcagtaaa cattgttttt aatctattca tttttggttg atattaaatg ttcagtgtat 53400 gaagttacgg ccttttaccg ttttgttttt tatgtaatct cacccaggtg atacttaatg 53460 cttacgttta tcttatcttg aaagagcttt tgcaaacgta aagttttagt cttttaaaaa 53520 atgaattgac agtctacttt gtgagttttt caaagtgcat gggatgtata gtatttttaa 53580 tgattggtaa taaccattac aattttttaa aaagttggta gcataataag gccatttagt 53640 tacactacaa gaaaggaaaa ctcataatgg actccatgtg tttactctta caacttcctg 53700 agtcacgttt tctgcaccgt gtaatggtga tccattagag atgcaaaatc tttgcaatct 53760 tttaagtacg ctctttatag ccactatttg aaggaagatt aatctggtgg taggttcaag 53820 cctataacac catgatttat aaatagactg gttcaaatta tgcttgttcc agtttagaaa 53880 tgtaacttag atgcatatcc tgtgagacac aagaataatt taaaaatgga attgatggaa 53940 cctgaacaaa atcaatcaat gggagaaact ttctctccct gcttgtataa agtagtcatc 54000 ttgatcctta aagaatatta atccagtagt ataatcatca gtggcaaaat attcgccatt 54060 tttttcaggg acctcggaca gccttcagtg atttcaatga atgtgaaata tgcttgataa 54120 aatgtatcct attgtaatac tataccttct gaaggaagca aactcagtca ttaacagaaa 54180 tataagaaaa ggaacaattt cataaaatgg aatggctttt cttatgagtt ttaattgggc 54240 tttcttagag ttctgatttt cttcaactgg ctggattagg agtccctccc tccacccctg 54300 gacccactga cttcccacag atgcttggat acacctttat catagcactt acccagcatt 54360 ttggttttat tttcatagga atcctaagtg agtaaggcgt atttaagcca gcagatggat 54420 gattaaagga tggtgtgtgt tctatctcta gttaatttcc ccagtaattt ctgggcatca 54480 catgcagtca ccacatggta gtcattatgg ctttcctccc ttgcctgggc atccactagt 54540 caatgtctgt ggcccatgaa gtcatttagg ggagccccat catggccact gcttatacat 54600 tacagatacc aggcaggcaa gaccagagtc tagcttctga aatgtcccaa gttgctactg 54660 tcagggccat gctggcttcc agatagagtc agagacactg gcacccttcg aaacttgaag 54720 ctgtagtttg gtcacatgaa tgaatactgc ttgggtttct ccagcagagt gtgtcctcaa 54780 ccagctcatc cagctgcagt ttctcatcct cctagattgg aactgaaatc aaatccagag 54840 ggcctggcta acatcatatg cctagctttt tttttttttt tttttttttt ttcctatcta 54900 tcccaggacc ctactttcaa aacttctctc tacaacccag gtaccaaaca aaattgacat 54960 ggagctgaga caaaaggaga gggtcatttc tgttatttta aaaaaatgtt tgaactctgg 55020 ctgttagaaa ttagataaca gttttaaaca catacttgtg ttcctcacta gattctgaac 55080 tttacaagga caaggactat ctttatcttt gatccctggc acttaagaca atgttaaaag 55140 agtcaaaatt aattgaagga agaattattg caatgtctca gtcagactta agagttttca 55200 caactcattt caagctgtaa taactcctgt cgataccctc ttctcatcca ctaaggaata 55260 ttaaatatgt aaatattgct caagttctat ttcaggactc cttttagtgg aaaaaatgtt 55320 tggtgcatct tttatttccc ttgagtcatc attgttcttc ttgggaatgc tgtgataaat 55380 gttgtcttgc agattctttg cagtgtaaga gctttgtggt aggtgatgct tcctgggcct 55440 ccaaatttgt agcaaattaa aaatgatttt tgtgggcttt ctcccccact cttctaggtg 55500 tggaatatat gagtagagca catcttagct gttgattttg tatgcctaca ggaatttact 55560 ttcaaaaata ttaatttgca ttttgctatg gtatttaaat tgataacagc cacttatgtg 55620 ctaggtgtta gcaataaaca gcatctatcc ataatccttg cagcaatcct tagaaggggg 55680 ttggatcact ttgtaaaggg ccagagagga aatattttag gctttgaaga tcatatgatc 55740 tctgtggcaa ctcctcaatt ctgccattgt agtgcaaaag cagacacaaa caatatgtaa 55800 aggaataagt atggctgtat tcagataaca acattttact taaaaacatg tggtgggctg 55860 gatttggctg gttggttgta gtttgctaat ccctgatnnn nnnnnnnnnn nnnnnnnnnn 55920 nnnnnnnnnn nnnnnnnnnn nnnnnnnctt ttttggccaa aaaaaaaaaa aaaaaaaaaa 55980 aaaaaaaaaa aaaacaaaag actcatgtta acagttaccc aagtttaccc tgctctagta 56040 agtaccagca ctagaatttg aactgacttc acgtcatgat tcaaaaaaaa aaattagata 56100 tttatatttg ttcactcagt tatgaatgtt tggtacctgc aaggccctgt acaatgtgct 56160 atgaaagtga tagaggccaa gtttacagct tcctatagtt tacagggaga ggtagtcaat 56220 gaacatcatt cctctcactt gcccaagtta tgaaggatga caaggcatca tgatttccgg 56280 atgacaaatg aacacttttc ttacctgtaa agttggcaat agagaacata ctacaacata 56340 tgagataggc tgttccagtt aggcacagac agtgtagaca accacaggac tccacatgga 56400 ggccagcttc tgtaacactt cagaaatggc aagcaaattc ctaagaagga tggagagagc 56460 tgctggtcta ccatgcacag ttccttgttc caaagttccc acacagagaa ctctcctctc 56520 ctttggaaac atcagtgaga gggaggagaa tgtgaataat gtgtgaacag gtgtccactc 56580 cccattaagg aaagatcagg agtgaagaga aagtgtcctg cctcctcctg tgcgatgtag 56640 agcaagcagt agaagggaga gaataactaa gttgctttgg gatttacagt aaagagaaat 56700 tacttccagg attggagaaa aggaagcaat tgacagagaa ggtggcattt ggacacgttc 56760 ttgaacaatc ttcacttgga tatgtgaggt gagggggtaa gataagccag agaaaggaaa 56820 tatcagaagc acagagcagt ttaggggggt caagaaggtc aattgctagg tcagagttaa 56880 ggtgaccaaa tgtcctgatt tgcctaagac tctgggtatc agtagtgaag atctcacatc 56940 ctgggaaccg cccagtcctg ggtgaaacag atggttggtc tcttgagcgt cagcctaaga 57000 acttggaact cccattcgtt gagtggtaga atatgtagaa tggcttcatg tagggctggt 57060 caaagttacc acaccctgaa cttcttgata tggttacttc ctgaggtgag tcactaggct 57120 gggaatgaaa ggtgagaggc caaaagctgc taatagacat tgggaactac tgaaggtttt 57180 tgaaaggtat gaaggttaca ttgactctta gagtaggaaa tgtatagaaa gaagctcggg 57240 gactgtttaa tataaaacca gtggagaaca tattaggggt gaaataaaat attgagatgt 57300 attttctttt tgagaaagat gaaatattaa ttaattatca gtcccttttt attttcccat 57360 caggctctga aaaagagtta tttagaattc aatccccaaa actatcctag tatgttcatt 57420 ctaatggata ctgttggctt ggaatgaata gttctataat tgaacttttt taaaaaaaat 57480 ataaatactt tgctcttgta ttttcccaaa taaaaatgct ttggtaataa agaatgcatt 57540 tctagtaagt ttcttgaaat ttttacttaa ggattgtttt cattatcatt attgtatgtt 57600 actcctgaat ctggtcattg taccagatag atacttcatt tggaaaagcc cactgggtaa 57660 atcttatatg gtggcttgtt attggcactg aactaagaga cggaatgaac cagatgtaga 57720 tgtattcagt ttaagcatct agacaatgtc tttcattcaa taactacttg ttaatgagtt 57780 aatcagttgg ataaatctaa ctactgagaa tcccaagagg aaaatgtgac atgtttgagc 57840 atgtttgtct tttaaatgat gagctttatt atttaagaaa tatcagaagt tgaacttagg 57900 taatcagaag ttttatgtaa tatagaagtg atgtagaaat ctgatgattt gaaaaaacca 57960 ggtgaagttt cacaaaacta cttcatatta attgctatag attcttaaag gaaattctgt 58020 caattatttt gatatggatt ggttggttat tgcttttccc gcctatactt ggattgacta 58080 tattttttac tttgaaataa cttcagactt tacagagaag ttaaattatg cacataattc 58140 ttgtatgcca tttatccaga ttccttaatt gttagtattt tttttttgag atggagtctc 58200 gctctgtcac acaggctgga gtgcagtggc atgatctcgg ctcactgcaa cctctgtctc 58260 ccgggttcaa gcgattctcc tgcctcagtc tcccaagtag ctgggactac aggcatctgc 58320 caccatgcct ggctaatttt ttatttttag tagacatggg gtttcaacat attggccagg 58380 ctgttctcaa actcctgacc tcaagtgatc cacctgcctc ggcctcccaa agtgctggga 58440 ttaaaagcat gagccaccgc tcctggcctt gttagtattt tactatactt catacttgct 58500 atattatata tttctctatt ttttctgaaa ttttataagt tggagacatg attctcaata 58560 tcagtgcaca tttcctaaaa acaaaaagga cctcatttat aatcgcaatg aatttattaa 58620 aataaggaaa ctagcactga tataatactg ttatctagtc tagataacat tcaaattttg 58680 ccaattgcac ctctgctttt tgtagttaaa gaaaaaattg ttttagatct aattccaggt 58740 catatattgc atttagtggt catactttat tcttctttaa tttggaccaa ttcttcagcc 58800 attctttgtc ttttatgacc ttgacatttg aagaatcctg gccagttatt ctgtacaata 58860 ttcctcaact tggatttgtc tgctgtttct tcatgatttg attgaagttc tgtgtttttg 58920 ccagggatac aacaaacatg ctattgtgtt cttttcagtg cctcatagca ggaagcacat 58980 tctagtgaca ttaactttga tcactatgtt aaggtttctt gtttgtaaag ttactagatt 59040 tcccagcgga ataagtatct tgtgggagat actttgatat gatataaaat cttgtttctc 59100 attgtatatt tactcaatgg ttttagccag tgcctgaaat aattattact gtaatgattg 59160 ccaagtggtg gtcttctaat ttctcattaa ttttatattc attaactgga attctgcaaa 59220 gaagagtttt tggccaggtg tagtggctca catctgtaac tccaccacct tgggaggctg 59280 aagtggaaag attgcttgag ctcaggagtt tgagaccagc ctgggcaaca tagtaagatc 59340 ctctttcttt aaaaaaaaaa tcagccaagt gtggtggggt gcatccatag tctcagctat 59400 gtgggaggct gaggtgggag gattgctaga gcctaggagg ttgaggctgc agtgagcttg 59460 tgattatgcc actgtactcc agccacaggg acagaatgag atatatctca aagaataaaa 59520 aaatcaggaa gaccttttcc cttgtccttg tttacttatt tatagcagta tagattcatg 59580 gtttatttta ttcaatttat tataatctct tactgccatt tattctgttg cacacattgt 59640 cccaggatgg acatggaaca ctgggacctc ctttaaactt ctctgtttga catgttccat 59700 cattctttga acacttcggt tctctctggc acaatgtgtt ttaggtggat ttttacattc 59760 tcttccctag ccttggaata agcatttctc caaggagctc cttttagttg agaatggtat 59820 ttagaaaaca aaatctggtt gctggatatg ctcattactg ttggggtgtt attatttcta 59880 tgccttctca gcaaacagag ctaggaagta taagtgtata tatgtatgtt tgcttgtgtg 59940 tgtgtgtgta tacacattta tacatatata cacttataaa tttgtttctg cttttattcc 60000 atttttgagt tgcttcttcc ctatccttgc ttttttgaga cagggtcttt cttgtcaccc 60060 agactggagt acagtggcat gatctcggct cgctgcccct ctgcctcctg ggctcaagca 60120 gtcctcctac ctcagcctcc caagtagcta gaactacagg tgtgtgccac cacacctggc 60180 taatttttgt gtttctagta gagattgtgt ttttccatgt cacgcaagct ggtctcaaac 60240 tttcagactc aagtaatcca cccaccttgg cctcccaaag tgctgggatt acaggcgtga 60300 gccaccatgc ccagcctatc cttgttgtgt ttattatctg ttgagtacgt aaaatattaa 60360 catgattcta aagatcagaa caatagaaag aggtgtgtgt gtacttttca taccccatcc 60420 cttctaccct tttcacattt gcctgtcact ctgtttccac ctgtccactg taggtaacca 60480 atttcttttg tttctcattt attcatctta gatatctttt tgtacaaatt aatagatgtg 60540 tatattttat ttcccttttg ttctgctatc aaaggtaaca tacattagat actcatttgc 60600 actgagcttt ttttttttac ttaacagtat atgttggaaa taactccata tcagtttgta 60660 gattttcctc attatttttt agtggctttg gttgcagtgt actatactgc atggaagtac 60720 cacaacttat ccaattactc tcctgtgtgt gggcatttag gttgcttcca gtagtctgta 60780 ggtgcagacc gcaaagaata actttgtgcc aagtatattt tcaggttaat atttttattt 60840 cattgaagca actcaacttt tttttaagtt gtcgttggag agaattggag ttatatatat 60900 gtcaacttgt ttttttattt ctttgtaagt accctctttt atttcttttg aatacctttg 60960 caacaaaatt gtcaaattcc cctactttta aatacaggga cacaccgtat ttggacaaca 61020 caccatgaaa ttttagtaat ttaattcatg tttaatgtgt ggtcaaaaga gcccttatgc 61080 ttcctggctt tttattatct taggtaatct gagtggcttc taactagagg ttctaaaaga 61140 atttgggtaa ctggttttat agctgtaatt gagacacaac tctgcataac tctttccatc 61200 caccacttcc tcctccccat acaggataca gaccttaaag aacacaagcc tggccatcta 61260 cttctccaaa ttaatacttg ctcttttatt gtcagtagcc ttagagacaa tgtatttccc 61320 aaacacttgt ttgtctaata tctattacct gtggccataa cagagtgtcc tatttatgag 61380 tagagccata tatattatgg atttgcaaat aaggatattt gcagagctgc tctgcaacac 61440 cgtcagtaac cccacttttc tgttcaactc tcactaccta agaggaagcc aatcttaatt 61500 ttatttttac atcctttctc ttgtattcac attctgctgg cttcttaact ctgaatcgaa 61560 aatcaaagcg tatcatttta gttcagatgc catgtgttgt gttttatctg atcctcatgc 61620 acttgaactc gggtttcctt gacaaagact ctcttgttcc tgggtggatt gactttaacc 61680 agaagctggt gctttctaag ctctgtattt gaatgggttc tgggggtaat gtggcatgct 61740 ccccagggat gcttaaatac tgggacattt ttctcaatgt ggaatttcct gaatttgctt 61800 aaagtgatat aattttattc ccttaaataa ctatgaagag agattgttct tagtatttct 61860 gaagagtaaa ccaatagcag tatgaatgct aaaggagttt aatttgaaaa cttgattgag 61920 tcattttatt ataagaaatc aatcaatgaa tctccctcta tcgcttcctc tctcttcatt 61980 cttattttag ttacacttgt aatacataaa tatatcctca ggtgtgtggg gcagggagaa 62040 taaaaagcat ctctcttggg tctcctttat ttcccttctc cagatgcaac tactgtgtgt 62100 gtgtgtgtgt tttttttttt tgtttttttt tttgacagtt ttgttcttgt tgtccaggct 62160 ggagtgcaat ggtgcaatct cagctcacag caacctctgc ctcatgggtt caaatgattc 62220 tcctgcctca gcctcctgag tagctgagat tacaggcatg cgccaccacg cccggctaat 62280 tttgtatttt tagtagagat ggcgtttctc catgttggtc aggctggtct ggaactccca 62340 acctcaggtg atccgcccac ctcggcctcc caaagtgctg agattacagg catgagccac 62400 catgcccagc acaactactg tgtttttaaa cttattgttt gtatttaaga tgttcaacat 62460 gttttgatat gtaaatacag agcaaaatga ttactcaagc agatttacat agccatcact 62520 ttccatagtt atgtgtgtta agagcaatga gaatataaat ttctggtatt ttcttgtgtt 62580 tatacctata cacacatata aactctcata cgtgtttggg gacttgggga ttaaggggaa 62640 atgtttttct tctccagagg ccaggttgat gactttaaga aaattactcc taaattttgg 62700 tgctactatt agaaagggga gaatagccat tccttctgtt gttggagacc tgcttagaca 62760 ttttaactgt tgctctctct ctctgctatt tgaaaaagag aaagacgtta tgagatatgg 62820 ggactgcctc tgaaaggtac taaagatgga gcgtggctgt ttgactacag ggtgggtgag 62880 attgggaatt atggtcttga taggactttt gtagcatggt gtggggaggt gaccacctaa 62940 agcacatact ggagggataa agtgtcagta ctgccagctg tgtgttagct agaagatgtg 63000 gtgggagttt tgttaatggt tagccaaggc ctatggaagt catcatggat ggcagttcct 63060 ctctcctttt tgatgataga agtgatgaag ccatcatttt ttctttcttt tttttatatt 63120 ttaagttctg ggatacatgg gcagaatgtg tacgtttgtt acataggtat acatgtgcca 63180 tggtgatttg ctgcacccat caacccatca tctaggtttt aagccccaca tgcattaggt 63240 atttctccta atgctgtccc tccccttgtc tccaacccct gcccccgaca ggccccggtg 63300 tgtgatgttc ccctccctgt gtccatgtgt tcttattgtt caactcccac ttatgacatc 63360 attttttctt tcttagccca ttggcaatga gaccattagg gccaccaagg agagggttaa 63420 gtcctcacct tttaggtgga agatatgccc cctttttctc cctagcacac tggagggtat 63480 tagcacatcc cttcaatccc catgttcccc aagctgtttg gaattagatg tttcccacct 63540 gtgttgtgaa gaggagaggt ttggcattca gtttacattg atgttttaaa ctgaaaagga 63600 atgggcctta agtatggagg aaggactact atactaaatt cctacttgct ttcattcata 63660 gaatctgctc attctactta ggtcactgat acccatctgg gaagtggggg ctcagggtag 63720 caaaagggga aaggttttga gaaaaaagtt catttattta catatcccag tgagtcagac 63780 tgtctcagta aattagttaa tggtttgttt ggcagagaag tacaattgat ttgcctttca 63840 agtcaatgat ttatataaca taaaattgtt caaaatggtt gagaccaagc cttagggatt 63900 tttctcttta ttaatgttgc actaaattgg ggatattctg cataaatatc ttgttaagtt 63960 agactgtatg ttcctggaga ccaggaacct tattttattt tctaaggagc caagtaaaag 64020 tatgtgctaa aacttgctaa ctgaaaggaa ctttatttta gcaatatgtt tcttgcacag 64080 tagcaaatgt ctatatttga caccaagtac tgaagtggac tctgggcaca tgaaaatgta 64140 taggaggtga tatcttactg tctactgggg aagacataca tatagctagg taattttata 64200 atgtaacaaa tatagaaata gaagactcca gcgtgcctca gagtgatact atagtggccc 64260 ttagccctta taagtgatta gagtatcagg gaagtcttcc tggaggagat tgcatgttcc 64320 tttataggtt agggaattgt atatcatttt tatacttatt attgtgttcc taatgtgtag 64380 gacatagcaa gtaatcataa atgtttgtaa atgaataaac agatgtatga aaaagagttc 64440 aaatgagtct taaattatga ggaaaaacta aaaaaataag aacattgcag gtaaaggtat 64500 tctaggcatg ggtagtgatg agcagaaaca aactcgagtt tgagactgct gttatgtgca 64560 cagatgagac atagctcaga cttgagacta gactttgttc tttaggtagt agggaatacg 64620 gtggattttt aaacagccga agtgatagga ttttatttaa ttttttaaag aaatcctggt 64680 gattgtatag tggagaatga attagatgga tgtgagagtt gggagcatga aaggcgtgta 64740 cgttggtaga gttgcccaag ttctggagtg agaaatgtgt tgataaaaat gcagaagaga 64800 gaacagagtg aaagatactt tggagaatga agagtgataa gagctgctga ctgtggtgag 64860 ggggtgagac tctgagatgg gacaaaaagt ttttgttccc tgagaggtaa gaaggcatct 64920 cctggagagg gcttctggaa aagctactgt ttcttcttcc tctttttttt tttttttgta 64980 atttttatga acaaaataga tcaactggca tacaccacat tcctgtctag ggtgctctgc 65040 aacaaatgcc tcctaactgc cagaaggtct gggaaaacag tattttttct gtcaggcatg 65100 ttgctgccct gaagagaatt agtcctgaag gaagagcagc cactagtaat gtctgacacc 65160 aagttacctg ttagtcttac tactgctagt agcactaaac cagagcacaa agtctaccct 65220 tttaaagaac atttggaaaa aaccatcata tccccataag ggactactat atttgtcaga 65280 aaaatgtcac tattatttct ttgaaaagca ctcaatcagc aggtgctttg gcagtttcta 65340 agactgacta gtgttcttgt cacacaggtt aacaaacgaa aaaaataaaa agagaaggga 65400 ggcaattgtg gtctttctca cccagcttga tttgagggca aagtttttta aaaaaacaaa 65460 accattaaag gaaagtttaa aagcagcatg taaacatgtg actgagaatt ggctcagacc 65520 gaaaggctga gaagaccgaa aggctgagag aaaccctcaa agtggaacgc ctaccttgga 65580 gaatgggtca gctttgcaga agatcagata aacatagaaa tgggaaaggg ttttatgggt 65640 tgtgtgtgtg tgtgtatgtg tgaattttat tttttttacc ttaatttatt attatttttt 65700 tgagttggag tcttggtctg tcacccaggc tggagtacag tggtgtaatc tccgctcgct 65760 gcaacctcca tctcctgagt tcaagcaatt ctcgtgtctc agcctcctga gtagctggaa 65820 ttagagacat gcaccaccac agccggataa tttttgtatt aaagtagaga tggggtttcg 65880 ccatgttggc caggccgtgt ttttttaaaa aaataagaat cagtgttggg tagttcagag 65940 ttttgagtag aattcatttt actaaacttg gatatattcg agactatgtg attcatggat 66000 cagaaataaa ataatcttct accaagtttg cttctatgta catcttttta gtatttattt 66060 ttagaatgat ctatgttgtg ttagctacac atacatatag tgctacaagt caggttttaa 66120 aactctatca agcatctatg caataacata catgcagttc ttaggctggc atgaacgttg 66180 ttttcttaaa atatgaatca ttaaatataa aggccaaatt cactaaaaga tcttgaagat 66240 atgaaattcg gagtactggc acttttaact atgggtgttt acagaaaata tatcttagca 66300 tttggaaata tttggaagta tttagcttac ttccactgtg catttatttt taatatttat 66360 ccagattttc tatcatgtgc ctcctgcttt tctgttccta tttaagacat ttggcaaagg 66420 ggaacaaaga aatttaattc ttactgaata tgaaactcct taggcctgga taatgtctgt 66480 attttttcta agtctggaaa gatgtacatt ttagccaatg ctggaatagc ttaaactatt 66540 aaaatcatac atgtattgtt ttgtctctta tgtaggaaag tactcatctg tggcctggtt 66600 ttacttgatg tggtctcagt taagctggtt ggctgcttga ggtctcctgt gttgacctaa 66660 ggaaggtttg ggaaatattg gttaatatac tacagtgtga gaaggattta ttacaagtgc 66720 catgtgtcat tactataggc attcttcccc ttgtaaacca atactttata taagaatgtg 66780 tcatgataac taggattaat tttcttattt ttcctgggta aaatgagact ccccaaaagg 66840 gctcacctta gaatgaggtg aatttttctg tcttaactct gattcttgtt ttctgccaga 66900 tttaagtgaa gtcccctttt agcaagaaag tataaatatg aaatgagggt ataattttat 66960 ctgccattaa gtaaataaaa atattatgca aaataattta ttttctttct acatcaaaca 67020 agttaagttt ttctgaattg ctgaatgatg caagattctg tagactgagc cttcaaattt 67080 taggaaagct tttattttgg tagcaattag gaaaacaaat ctaggaactt aaagattgta 67140 atgttaagtg ctgacagccc acagactact aacattcagc tgtatgtttt cctccctttg 67200 atttttggag gttccatgta attgaatctt tagttagaaa tttctttatt tccataaggt 67260 tgaaattttc cctagattgg caaatcgttc attactaata ttaaaatgaa ataaccatat 67320 tctttgtttt aaaattttgt ttttatcaaa gttgtacaca cacattgttt ggagacagat 67380 ggttctgtca gacctgtaat gaaaaactgt tcctttccaa tgccttcttg ttacttcccc 67440 atcccccctt gactactttc agaacctttg ggtatttatg tttataactt tccataacat 67500 gcttttattg ctccttctct gctttttaat ttggggcatt atctactgaa ttgctgctat 67560 ggaagagaag tatttagctt acttccactg tttctcttcc tcactacaca agagcccact 67620 tcttttcccc atcctcctag tagagttata ttgtcatttt gcagggatga atagttggca 67680 tttatattct tataaccatt gtattaggcc attcttgcac tgctgtaaag aaatatctgg 67740 ccaggtgcag tggctcaagc ctgtaatccc agcactttga gaggccgagg caggcagatc 67800 acgaggtcat gagatcgaga ccatcttggc taacacggtg aaaccccgtc tctactaaaa 67860 atacaaaaaa attagctggg tgtggtggtg ggcgcctgta gtcccagcta ctcgggaggc 67920 tgaggcagga gaatggtgtg aacctgggag gcggagcttg cagagagccg agatcgcgcc 67980 actgcactcc agcctgggcg acagagtgaa actctgtctc aaaaaaaaag aaaaaaaaaa 68040 gaaaaagaaa gaaatatctg agactgggta atttattttt ttttaaagga ggtttaattg 68100 gctcgtggtt ttgtaggatt tatgggaagc atggtgctgg catctgctca gcttctgggg 68160 aggccttagg aagattttat tcatggtgga aggtgaagtg ggagcaggta catcacatgg 68220 ccagagcagg agcgcgagag agagttggga agaggtgcca cacgctttta acaaccacat 68280 cttatgagaa cttattgcca ggacagctcc aagccatgaa gaatctgtac cgcccactag 68340 gccccacctc caacaacaca tttaaatgtg agatttggtg gagacacaca tccaaaccgt 68400 atcaaccttg cgaagattat ccaaagctga gccacatagt gtgtgtatat gttaaatatt 68460 ggttacattt cctatcctat atagttattg ttttctctga aggtggtttt ttttctctgt 68520 gtgtgcttct caaattcaac tgtaaatgct cttcagtttg ctaaatccct tcctagtatg 68580 tttgaatata ttagctatct tattttatcc ttttggagag acacctttca gcattgctgg 68640 tcttgcagca gtctagtctg gctgctttat agcctgcttc acagacgttt acttgggatt 68700 tcccatcagc ataatcttgg ggaattcctt ctgcctctaa cttgtgttga atactctgtt 68760 gcctggattc ttttactgtt tttgtgtact tccgtttttg tggagcatat atcctttaat 68820 agcttaccaa gaaaggatac ctgggatata tatatttgag accctatatg ccagaaaatg 68880 tctttattct gctttgcagt tgactatttt ggatggtcct ggattcttac tagagatttt 68940 ctgtagccat atcctctctc ccagctttca acctcaggac gtgcactcct ctagcatttg 69000 ttacatctga ctcctaattt cctccccatt cttctccagc acccaagtgg gtggtggaag 69060 ttaggggctt gtgcctccgc tggaatagta tctttccttt ctctgcattc tctcttcctc 69120 accttcaaaa gttatcatag gtgccgatag ttggcgtctt atttttcttg gtgactgtca 69180 aagaatacca gagccagaga gtagtgaaag tgattaaaaa cagattttat ccagaaatta 69240 ttgcaatagg aggaaagata cctcagtata gaactgggct cgatttcaaa tacacaacga 69300 aaagtggaga tttatacaca aggagtgggg ctggtggggc ggtgtttgga tggaaaatta 69360 ctaagaggag acattaaggg tagggggatt cttgctaatc tgacttaaga tcagatatca 69420 agggttgggg gtgaggcatt tgatcagata tcaagagtgg tcagaaatcc aggatggggg 69480 attctggcta acttagcggg attcttgcta ggtaggccca acaaggacag gggtcacagt 69540 tgaggcctag tccagagcag agggctcaga ggaacctgac tactgtttgc tcaaggagag 69600 agtctttgcc atggttcaag tgaccatacc acatgtgttc aggtgttagc aaaaattctc 69660 aagatagggt ttgtgacact tttcatacta gtgttatttg tgtgtgtgtg catgacatat 69720 gattagaacg tgagataaat ggtagtacta ttgacattta cataacctgc tcaggagaat 69780 ggtgatatgg gttatttttt cccctaaggc tagttatgcc cagccattaa ccagattaaa 69840 taatctcaat atgtatatac atcacaagaa tgtgatataa ctttatgtct aaaatacttt 69900 atcaccacag aattagagga tatacttatg ctgcttctat tatggccaag aaaccaacgt 69960 atgaatcaca ggtataatat ggggtacttt tctacaaaga aaatatgtag caagtgaagc 70020 atttcttttt aatcaagaag tgggctatat tatgctttaa ttcttatatg gcccttagtt 70080 tttccaggag cttattattt atttgtttca catttgcatg cttttctgca gtgttctttt 70140 ttccccccga atgctccatc atccctaact tattccaatc taccgaattt tttttctttt 70200 tttttttttt attatacttt aagttctggg acacatgggc agaacatgca ggtttgttac 70260 ataggtatac atgtgccatg gggggtttgc tgcgctcatc aacccgtcat ctacattagg 70320 tatttctcct aatgctatcc ctcccctagc ccccccacca cctgacaggc cccagtgtgt 70380 gatgttcccc tccctgtgtc catgtgttct cattgttcaa ctcccactta tgaatgagaa 70440 catgcggtgt ttagttttct gttcctgtgt taatttgctg agaatgatgg tttccagctt 70500 catccatgtc cctgcaaagg acatgaactc atcctttttt atggctgcat agtattccat 70560 ggtgtgtatg tgccacattt tctttatcca gtctatcatt gatgggcatt taggttggtc 70620 ccaagtcttt gctattgtga acagtactgc aataagcata tgtggggcat gtgtccttta 70680 tggtagaatg agttatagtc cctttgggta tatacctggt aaatgggatt gctgggtcaa 70740 atggtatttc tggttctaga tccttgagga atcgccacac tctcttcaac aatggttgaa 70800 ctaatttaca ctcccaccag cagtgtaaaa gtgttcctct ttctccacat cctctccagc 70860 atctgttgtt tcttgacttt ttaatgatca ccattctaac tgggcgtgag atggtgtatc 70920 ttattgtggt tttgatttgc atttctctaa tgaccagtga tgatgaggtt ttttcatatg 70980 tttcttggct gcataaatgt cttcttttga gaatgtctgt tcctattctt catccacttt 71040 ttgatggggt tgtttttttc ttgtaaattt aagttctttg tagatttctg gatattagcc 71100 ctttgtcaga tggatagatt gcaaacattt tctcctattc tgtagattgc ctgttcactc 71160 tgatggtagt ttctcttgct gtgcagaagc tctttagttt tattagatcc catttgtcaa 71220 tttggctttt gttgccgttg tttttggtgt tttagttatg aagtcattgc acatacctat 71280 gtcctgaatg gtattgccta ggttttcttc tagggctttt atggtcttgg gttttacatt 71340 taagtcttta atctatcttg agttaatttt tatataaggt gtaaggaagg ggtccaattt 71400 cagttttctg cctatggcta cccagttttc ccaacaccat ttatgaaata gggaatcctt 71460 tccccattgc ttgtttttgt caggtttgtc aaagatcaga ttgttgtaga tgtgtggtgt 71520 tatttctgag gcctctgttc tgttcctttg gcctatatat ctgttttgat aatgattagt 71580 gtagtcttaa gtcagtttac tactttgaaa gagtatgcag caggctttgc ttttggctac 71640 taatactaat ctctactgaa tggtagaagc cccatccaat ggggagaaat tttagggcaa 71700 gcctttgagc ttgcttgagt gtaaagaaac agaaacaggc tgatgaattt attaacagtg 71760 gtggaaaagt ataagggtga gtacaaaaac caaccaaaaa tagaaaaaga aagagcaaat 71820 ctataaacat gagaagttaa gtttctagtt taagttacta gtattgatca agggttacag 71880 catccctgag gaagtagggg tggaaaatac aaataatctc aaaaatgatt taactaaatt 71940 tgtagatgcc agatccataa tgggttattg tagggaacta ggatgttttg ggttcactcc 72000 taacctttgg ggttgacatc aaagaacagc cattctttcc acagcatatc ccttggtgtc 72060 atcatcagaa acctggacag gaagaattgg gagcctgatc caatgtagca agacccatta 72120 ggctctgatc tgtgccaggt ttgtgtgggt tgtaaattta gagtaaattc caacatgagg 72180 gttgtaaatg tcaatgaatg aaaacttgaa aaccttaact tttatatttt ctaatctttg 72240 ttaattctca tttatgtagt gtgctcttaa agctttaact ttcttggaag atctttttat 72300 tatatatcct gtacttgact atagtgatac ttcttgaact agtagtttct catactatag 72360 gttgaatagg atcaattaat taccatagga atagagcccc tacttttgga atttctctta 72420 catatcactc cattttcaat ttgcagtttg agattataaa agaagtttct acttcagtta 72480 tgattcttga cttttctaat agaaagatat ttgaaattcc catttgaatg gattttcatc 72540 tatatgtagg aaaacacaca tgtaatttta gggtttttgg gtgcagatta tccgttttcc 72600 ttactatttt gagggagaag ggctgaattc aaaactttga tctgaatgcc ttacagcaat 72660 gtgtaggaat caactgagaa tcttgttcaa aagcagattt ggattcacca gtagagtgag 72720 gcccgtgatt ctgcaataca caaggtgtgg gatgaggaaa gtctgagatt cagcttctag 72780 gtgatgctga tgctgcaggt ttgaggacca tgttttgtat agcaagactt taaagcattg 72840 cttgccaact tagtgctgta gtttaaaaaa ccagtcttgg tttcagcttt tccactaact 72900 atgtttttgg aaaggtaaag gaataatgaa aacaaattat ttatatgagc aggatccaaa 72960 tactatagtt atttggatgt tgaattcgtc tagaaatatt ttctttccac ctattctgta 73020 ttcttcccag ctctttctct ttttcttatt tccattctgt attgaaaaat ggaggcttaa 73080 atgacacaaa tctttcttga ttctattaaa cacacatact ctttcagctc tgtgtacttt 73140 gcctaattac tggcagtaaa actcagtaaa gggatttaag gcttatgaat gttctacttg 73200 gaggaaattg taattaaggt tattaaggcc tttgggttct tgtattttaa gcaaattaag 73260 actttatgtg ttttttaaag agacagtaac tcttccctgc ccaattattt cctctgcacg 73320 gataaccttg tacattccat gcatgtggtt caaacggcac acattctact ttgttctttt 73380 aggtaagtca tggatttaag ctgagaactt ttttcttttc tcaattgcca tatatgaaac 73440 actggacaac ttttaaagca aaaactaaga aataatccat gtactttggt accaaaatta 73500 ttttaaaagc caaattattc ttctttaaaa catttgaaga gagaataata gtcatttacc 73560 ttttattgca aaatcactct gttctctatt aaagcaatat gagttcattg caagacgttt 73620 atgaagtgcc aaacacaata aagaaaactg attcatacta ccttgtagta atcactgtta 73680 atattttttg tcttttttgc aagatttttt aaaatataaa tataatttac gattttttgt 73740 gtgtatgtaa aaggttagaa atgtcctaag accataccta tgggcacaac caagtcactt 73800 tactttcttt cctttccttt ccttttcctt tcccttttcc ttttcctttc ctttcctttt 73860 ccttttccct ttccttttcc tttttctttt tcttttcttt ctttctttct tttttttttt 73920 tttttctggg acggagtctc actatgtcac ccaggctgga gtgcaatggc gcgatctcgg 73980 tttactgcaa cctctgcctc ctgggctcaa gggatcctcc cacttcatcc tcctgagtag 74040 ctgggactat agatgtgcac taccatgccc cactaattta aaattttttt gtatgtggag 74100 acaaggtcac actatattgc tcaggctggc actttacatt ctacacttga attagtttct 74160 atcttggtct ttctttctct tagtcatgga aaatgaattc tggtaaatta atcttgtgtc 74220 ttgttaatga atgttttctc atttttattt ctgggtgtgc tcttccttcc ttccctgcct 74280 tttcaccaag gcttgcatca aggtttgcca ggggagggaa agcgatggag acctcatatc 74340 atcctgatgc tcctgtcccc tgcgtgtgct gaccttactg atcttcactc ttctgcatct 74400 gctcccacgt caacccctgc atatcacaca ttcatgaggg ctctgttcat gtgtccaggc 74460 tctctgcatc tctgtcctga ctgtgaagtt gtcttcttgc tcgctctcta agccacttct 74520 gaactcttct tggagtgtaa gatattttgg atggcttact atactgcttc gggctcaaga 74580 ggacatctca ggccctcttt gccctgaaca tcttactacc atgtctcgcg tcctgctcac 74640 ataagtgtct gggatgaagg agcacccctg gatgctgctg cttccttggg ctttgcagct 74700 atcttcttgt gtttcccaca tttgtcaggg caagatatgc attatctttt gttccatttc 74760 ccgaaggtta tagcacatgt acctttgtag acacccactc aaccaaaact cagtgttttc 74820 ttctctcccc actctgctgc tgactcatgg ggtctttatt tgtctaagca gataattggc 74880 tctgaaagat tacttagccc tttatgctta tgaaaaactt ttgctctgag tctttttttg 74940 tctctggttt ttgatactca taattcagta tctcttttaa ttcttaattt ttttttttat 75000 ttttattttc tgagacaggg ccttattctg ttgcccaggc tggagtgcag tggcacaatc 75060 ttagctcact gcaacatccg cctcccaagc tcaagtgatc ctcctgcctc agcctcgcaa 75120 gtagctggga ctacaagcgt gtgccaccac acttgactaa ttttggtatt tttgtagaga 75180 tggagttttg ccatgtcatc caggcttgtc ttgaactcct ggaatcaagt gatctgccca 75240 ccttaacctc ccaaagtgct ggaattacag gtgtgagcca ccgcaaccag cctattcagt 75300 gtcttataat gtgataaagg aaagggaaga tttttgtctc ttccaagaat tttaaaattc 75360 tgtttggaaa ctcaaaattt gagcatttgt acttcttttt cttgagaaac tttgctttga 75420 gccagtgaat tccacttgag catttgaatg aagaaaaagc taagagctaa aaataaattt 75480 taaaattatc agttaatatt caaatattat ttaatcacat gtaatgtgtg tgacttttta 75540 aaataggatt ctacactgtt tttataatct accccccatt ctatatagag ccttgtctat 75600 atattaacta acactgctgt gcataatcag tggttctttg tagtcaatat tttataccta 75660 atgtaagtta ttcagtattt tattcatgga catttaggct gtttactgtc ctttcactat 75720 taaagcaaat gctgtgatat aaattgtatg tatttctgca tttatccaat tctttcagct 75780 agattcctag aagtaatatt atgaaattca catgaaattt ctatgaaatt catatttcat 75840 agaagtaata ttacaaagga aaagttcaat aattccaatt ctaggagatt tataccaatt 75900 tacattacca ccagcagcat ataagatgtt aatttcctga atgcttacca attgttaaaa 75960 tcatcagtcc cttaaacgtt aattttatgt aggggtgact ctttattttg atttgcattt 76020 tgtcaataat gagattggat atattgtaca tcttttcatg tctaattaat ttctaccttt 76080 ttcaatagct tattatattt ttacttcctt ttctgaaagg acttttcttc attttgattt 76140 gccaatattc tttatacaaa aaaaatttac cattattgta tgtttcaatg accttttcta 76200 gtttatgtac tttcttgcaa agaagtttat tgtttcagtc aaatttacct ttttctttat 76260 tttttttttt tttgcagttt atgacctttt tagatagcct ttcaggagac tctttaatta 76320 ccctgtgaac atagacttac attgagcaaa ccattgtaca aagtatattt gatatattat 76380 gaaattaggg tacattttaa atgtgtttat aatagcttaa tatgtattaa tacatataat 76440 ttaagcatgt tacttatatg atgacatcaa tatttttatg ccatttcatg attaataatt 76500 cacagcgagg agattgcagt ggtttgtaag aggattgcaa cctctccatg agttgagtga 76560 gctggatgtt agtaagaagt tgtctgtgat aatatgagct ctggtgtctt ctgccctttg 76620 tggagctgaa tcctcagagg ccaggcagtc agttacttct gtgagtaagg aaggccacag 76680 gctacccaac agtgatgaac tctgtgttaa atagatggat tttaatgcag gcggctgcta 76740 ctcggctctg gttaatgatt atcaagcagg aatgtggacc atgccatctg attattagaa 76800 aaaaagcaag aaatttgggt tttcacatta aaatttttct agagggaaaa aattggtgca 76860 gataaaacaa aattgagctc tgtagtgcat aaacatatat ggtggcccta gaaatgttta 76920 tataccaagg cgatgaactg atctttctag agaatagcta atttctcctt ttactccact 76980 cccttgggtg tatgtgtgtg caggcatgtg tgtactgcat acgtgaatgc ctatgtgtat 77040 gaacctagtg attagctctg tttttttctt tttttgagtc aggcaaggtg tatttttaat 77100 ttttttcata gatacggggt ctcaaaatgt tgctcagtct ggagtgcagt ggctattcac 77160 aggcctaatt atggtgcgct gcagcctcaa actcttgggc tcacgtgacc ctcctgcctc 77220 agcctctgga gtagctgaga ctacaggcat gtgcacagct tgattagctc tgaggttgag 77280 ctaaactcag gctcttcaca gtctttattt actggctatt ttctccttct gccacattct 77340 ttatttgaaa tacgttgttc ttgggggtac tatgaataaa aatgaagagt ttttaaagag 77400 gaagaaatgg ggtttctaca gtatcaagtt ctgtttgcct gaagatgaaa ttggagactt 77460 agtgattatg aagtaactgc aagaatgtgt ctttgacaag acttttctgc agacgtgtac 77520 tctctgttgc atcacatcag caggcgtgta aggcagtttg tcccattatt ggtgattcta 77580 gttttgatca cttggttaat gtaagtttgg ccaaatctct ccattataaa ggcaactttt 77640 ctcatttgtg attaatacat aatctcttgg gtggtatatt ttttcccaat aaactttcac 77700 caaatggtat ttggatggtg atgatctctg tctgaattaa gttattacat tagtgatggc 77760 aaaatggtga atctgtgtgg ccgcaatcat tcaaatgtgg attgtagaat attttacaag 77820 acaactagcc tggagtctaa aaatctcagt gtcaacagag gcaaaaaata gtggaggaac 77880 tgctctaaat taaacaagac taaaccgaat gcaatgtatg acccttgata ggtttctaaa 77940 gataggtggg aaaaaagcaa tatttttggg gagaaatgaa gaaataggaa tatagacaac 78000 atatttgtaa tactttaagt ccatgttaaa tgtctgagat ctggcaatgg tattgtggtt 78060 atgtaaaaca gtgttcttat ttttagaagg tacatgctga agaatatagg gtggtgtact 78120 gcgatgtctg caatttactt tcaaacagtt caccaaaaca attatgtgtg tgccttttca 78180 tctctacctt tagatctgtg tgtatataga tatagacaaa tataaatgtt gacatacaca 78240 gagggagaga atgcaaggga aattattttt taaataatga tagttttgat atgacttcgt 78300 gacttacacc aggtaaggtg tttatacagt gtttacaatc ccggtgtcct acaatctttt 78360 tcagaatttg gagtttgtaa agttgacttt tcccaacata ttgaaaatca gacatttatc 78420 cttctttctt cttgaattcc tctttttttt ttcagaatca gtttgccagt attaaaaaaa 78480 atctataaaa atgtaaataa ttagagcctt cttgtctgtc ttatatttta atatcttctc 78540 cttaagctat gcttgatctt ttccttttca ctttgaaggt ccctattttt aacagaccaa 78600 aaaaccccat agtcttccta tccctttcat ctaatattac attataactt agtaagtgag 78660 cttaattttt taaaattaaa cttgctttaa aaataatttt tcataaatat taggaaactt 78720 taaccttcac atttcttttg atattatttt ttcccctgaa tatatccttt tgtacatgtt 78780 gtttaaaatg tttgaattca tcagagaact tcctatgcaa ttgtgttgaa ttctctagaa 78840 tatcactctt cttttcccct ttgggattat gtaaagatgt tcttattttg taaatgtcct 78900 tctaatttat attctaattt agaaactttg gccgcaaaca caaacgtgtt tcttctgaac 78960 ttttaaaatt atgttcttaa agtataggat tatacttcta ggatcacagt ttctgtatgc 79020 tattctaaaa aggcccataa taacatttga tttctgtatt aacagttctt ccttgtattc 79080 aagtattgag tgactccttt cgtttttgct atttatgtga aagataaatg gccaatacaa 79140 tcagccaagg tgtatcagac atagtaaact ttttatcctt gcattcccca atcctgtgca 79200 tacatctgta tgtttatgta catgctgtac cttggacttg gaaatcttgt tccatcaggc 79260 aaactcctgt attctcttca agacccaagt agtgttactc cctatttctt agctcttcca 79320 ggataaattg catctcctcc ttctctaccc caaagcactt gatagtatgc acataaaata 79380 caacttaaaa actacaatat tttggagagc tcttactgaa caaatctaga ataatctgag 79440 tattaaacaa agacagtaac agcctatagc ccattgaata acattcacga gtacctttct 79500 gtctgcttgt ttgacgtaac aaacaagcag acagacaaat gagggagaag ggaaaggcct 79560 ccccaaaact agcatgccca ctaataaatg gagaggaaat gacggagtta aagaatcacc 79620 ttcgacaacc tgacagtaat agtttattta ggcaagaatc atcaattctt ggatgccaaa 79680 accagtgtgt gaaaatttga acagcaggat atttatacag ttttactatg tcacctctca 79740 aaatacttac caattacaga agaaaaaaat agcaacttta tagtatagaa acctagcaga 79800 caccacctta accaagtgat caaagttagc atcaccagta atgggaccaa aatgcatcgt 79860 gtgcctctta agatgatgca cagaaaaaaa catcacttca tacattatcc cccaaatata 79920 tgaccagtca tgagggaaca tcagacaagc ccagacagac atgttgtaaa tcactgacct 79980 gttctcttaa aaactgttaa gctcatgaaa gaactccaga ttaaaggaga cttggagata 80040 tgattttcaa acccatcata ttgggttaga tttcaaacat aatatgatac attagcttaa 80100 aagggattct aatctaggaa aaaaataaag aactataaag gacattgttg gcataattat 80160 agagtgagga ttaaaaaata atatatcaaa tatggttgat gtaaagcaat gtctttgttt 80220 ttggaaatac atactgatta ctgaaaaatt ttagaggtaa gagggcagaa tatctgtaaa 80280 ttatacttaa atgactcaga aaatcatatg tatacatttg tatacacaca tatgttacat 80340 atgtataaac ctaccatgtc tatatacata tctggctaca tatacataca catatagttt 80400 tgccactttt ttgagaatga tcaagtacca tttacagttt tccatgaatg tagatgcagg 80460 ttgcttttgg cttccaagaa ttggagaaga tggaggagac tcatggtcaa taagcagtga 80520 caaattcctc tccaaaactg ttcatttcat tcctctggct ttcatgcatt tgtaaagtct 80580 agttttgatc atttgagtgg tatactcagg ctttctaatt acataggtat gcttgctgtg 80640 ttacttcaaa ggccccttag ccagggcagg atctatcttc aaagacagtg aggagagtgg 80700 cccatttgca ggaaattgca tggtttgggg gtgatttttg ttttctttga acttgtcaag 80760 tggagatccc tctgtaaaaa gtgctggcct tttgctgaat gcccaaacag taaaagactt 80820 tccatttata attctgaaga tttctcttta acctctgcca gaggaaactt gtaactcagt 80880 ttcccccatt atcctttttg atggatcagc agttttactc tgaagtgttt ttgtgggtga 80940 tatcttaatt ttgttggttt atagttacta gttgtgttag gaaaaattag catagtattt 81000 ttagtgacta atcatcaaaa ggaactttga ttattttgtt gtagctaaaa acggaggaaa 81060 ggagcagcga acgaattatg agggtatggc ctaatttgaa agaaagttct tgcaatttaa 81120 attatggtat aatgcatttc ttcccctagg tgctgtacat atattgttta acaggaaata 81180 aacagccagg attttgaagt taaaggtcag aactgcattc aaatttgtca caaactatga 81240 tcttggaaag attttttaaa actctctgat ctgtttattc actttgataa atgaaaatta 81300 tacatcagaa gcattacttt caaaaagtgt gaaaacctgt agcctgcaat ctgtcctgta 81360 gcatgttccc cggggttaat tttttttctt tttaaccctt attttgactt tgctgttttt 81420 taatttcttc ttattcataa tagacagaac cttgttagag taaggatagt taagcaatta 81480 gatttcaaat tgggtcggtc taaggtatgg attgctgtga agttagcaaa tcaacaaagc 81540 atgtcaaaat aacctgctta taaatgttaa atgcagacca gtggttaggc cgggcacggt 81600 ggctcacacc tgtaatccca gcactttggg aggctgaggc cagaggatca ccagaggtcg 81660 gcggattacc caaggccagg agtttgagac cagcctgacc aannnnnnnn nnnnnnnnnn 81720 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nntgtgatgg tgcatgcctg taatcccagc 81780 tactgggagg ctgaggcagg agaattactt gaacctgaga ggcagaggtt gtggtgagcc 81840 gagatcacac cactgcactc cagcctgggc aacaaggaat gaaactctgt ctcaaaaaaa 81900 aaaaaaaaat tattgaggtc taaattctgt gcaagtctgg agattcagta atcattctga 81960 tttttgttaa catttgactt ttaccaacag tgaactacat tgtagaaaac tgactttttt 82020 tgcatgatag tatagtattc cataataaca tttgtcaact ttaggtgtct gttaatatgc 82080 tttttattaa ggcaattaaa aaaattatct ttgtttaaag aaacctttct ctaaatagtg 82140 tagttaacaa gagtggccat tctcaattct aaaacacagt ggtaaaaccc atggaagttt 82200 ccacatttaa aacacatgga gtctttgatc tggttagtta tgacactgat tcttcttgag 82260 ggctgtgttt atgacaccaa ataagtcatc tagtttgttt ccatttattg tttttaatat 82320 taagacagtg atgtaagcag gagtgaccaa ctagtttcta ttctaggaag caggtgatat 82380 atgagggata attgaataac ttaaacacgg tgagaattat acattaaata gagtccatcc 82440 tacccctctt tttaaaaaag caatttaatt ttggataggc aggaggggaa gattttccta 82500 caggcagttg gataggtcag acactatggc acttacattc catttcttag gaagtatgca 82560 aaactgtttt taaattgtgt tagtataaga agtatttaag tactttatgg aacaaaaatc 82620 tggctctgtt tgtgagcagt ttgttttctt ctatttaaat aattggatta tctccctgta 82680 taaacatgga accatgtgag ggtggtggtt ttgcaatctt cataaatgta tatatttaga 82740 tctgctcatg ctggggttac cattagcacc agcagtctgt caacatttcc acagggtctt 82800 ttaagtatgt tgtgaaagct ccagccaaca cttggcataa gtaatctgta caacacagca 82860 gtttcaagct aaggcttata ggatagcacg catgctaact tttttttatt atactttaaa 82920 ttctgggata catgtgcaga atgtgcatgt ttgttacata ggtatatatg tgccatgttg 82980 gtttgctgca cccatcaatc cgtcttctag gttttaagcc cggcatgcgt taggtttttc 83040 tcctaatgct atccctctcc ttgcccccac cccctgccag acaggccctg gtgtgtgatg 83100 ttcccctctc tgtgtccatg tgttttcctt gttcaacaca cacatgctaa ctttaagcat 83160 acttttcttt tggtgttgga agaaatttat ggagtacaat tttttttttc cctcactgat 83220 tcaagcaggt ggcttatttt atagaactta ggatgtgatt cttcccttgt ttcaaaaaca 83280 tcatctcttt ctggaaaaat gagcaacacc caaccatcct atgttttact tctgattcaa 83340 ctaattaatg ttattggtgt tagcagttgt acaaattgag gagctcgtga ttctggtagc 83400 atattttccc acttaaatag ttcagttttc cgatgcatgt gttgtgatcc ttaattgtac 83460 actttttttc attacctgtg agaattaacg tctagtgtag ggatatgcat taagattttt 83520 gtgtcaaaag agtttctagg gggaaaaagg ggagtaattc ttatagggct tggtttccca 83580 aagtgttaat tatgggaagg gcttcatcat ttggggaatt gtttatgcta aattgaggtc 83640 tcacgatttt aatttcttat tggggcctat agataactac ttttttcttg tgttttgtct 83700 ttttacttga tttggggtat tcatgactgt ttttggaaat gttccctgga gaatttcttt 83760 cctttttttg agacggagtc tcgctctgtc gcccaggctg gagtgcaggg gcgcgatctt 83820 ggctcactgc aagctccacc tcctgggttc acgccattct cctgcctcag cctcctgagt 83880 agctgggact acaggtgccc gccaccacgc ctggctaatt ttttttatta ttttattttt 83940 atttattttt atttttttaa gacagagtgt cgctcttgtc acccaggctg gagtgcagtg 84000 gtgagatctc tgctcactgc aagctccacc tccctggttc aagccattct cctgcctcag 84060 cctcctgagt agctgggact acaggcgccc accaccacac ctggttaatt tttttgtatt 84120 tttagtagag acagggtttc actgtgttag ccaggatcat ctcaatctcc taacctggtg 84180 atctgcccac cttggcctcc caaagtgctg ggattacagg catgagccac cgtgcccggg 84240 agttccctgg agaatttcta agtcccactt atttcagttg aatcctgttc tacttgagct 84300 tctcactctg actggttctc agttggctag ggcatagaac tggcttggca aagtgctaaa 84360 tttagctttc cttgagcctc tctctgtggt gctaagccta tgatttaaaa aaactcaaaa 84420 aaaaaacaca aaactctcaa aagtatcttg ccttgctatt gatgtgtccc ccacaaaaat 84480 atttctcaaa agtacctttc attgccattg atacacatca gcagctcctt tggaatatct 84540 ctgactcccc caccagatgc acaagccaca tgtgctgctt atgttttggg tgggaaatgt 84600 tgaagggaca ctgctttgtt tcaaggtaaa atgtattgaa ccaaagttat ttttcttctg 84660 atgaccaccg tgattatttg ctttggtctg tatcctttaa atctcctcca gtttgacaga 84720 ttatctcgaa tgttaatgat gtgtgtaaat tgttagaatg agaatgtgtt tatcatgttc 84780 tgtgcaggtc cattgtgccc tcaagcagaa ccacctaaga ctccacattt attttgcaac 84840 catacctcag ttcatcgtct ttccttgaac cgtagttatt aagtattctg agctgccctg 84900 tgacgtctta attaaatcag actttgaagc attcatgaca catacctcat agatcattcc 84960 tgtttctttt gtgctgtgtt aaatacatat atttttccag tgacccatgc tatggccata 85020 gttaatccag gttgtgaatg tccttcagag gtgccaatgt atgaggatta caactggaat 85080 ggtgctggca ctggagagta tttaagggct aatagttctg gtaattttct tcattttttt 85140 tttggaagat attagcactt catgtgttaa aaatagatct gtgactctaa ctttctcccc 85200 caatatttaa aaactcctag gtttggttgg gcacggtggc tcatgcctgt aatttcagca 85260 ctttgggagg ctgaggcagg cggatcactt gaggccagaa gttcgagacc agcctggcca 85320 acatgacaaa attttgtctc tactaaaaat acaaaaatta gctgggtgtg gtggcacaag 85380 cctgtagtcc caactactcg ggaggctgag gcacgagaat cacttgaacc ttggaggtgg 85440 aggttgcagt gagccaacat agtgccactg cgctccaacc tgggcgacac agtaagactt 85500 tgtctcaaaa caaacaaaaa ctcctagttt ctcctagctt tgagtttttg tacagtgaaa 85560 tacatatttt aataggagaa gccaaatgat cggattaaag acctttaatc ctgatgtcat 85620 taaaaatatt catttgtaga gatgatttcc atatttgagg ggcttacaaa tgtttagaaa 85680 taccattttc ccaaggaaat actcctagac aattatatgt ccaatctttt attcctaatt 85740 gatatgattt attaatattt aaataatatt gttagataaa ttaatatgag tttctcaaag 85800 ttaatgcttc tcgggaggtt aaagctttgt aaaccttgta cctaaaaata tcattctcta 85860 ttaaagaact caagaaaaga taaaaagatt ctgagaaaat atgggttatt tttattttta 85920 tgtttttgga gatggagtct tactgactgg agtacagtgg cgcacgatcc caactcactg 85980 caacttctgc ttcctgggcg caagcaattc tgtctcagcc tcctgagtag ctgggattac 86040 aggcatgcgg caccatgccc agctaatttt gtatttttag tagagacagg gtttcaccat 86100 gttagccagg ctggtcttga acacctgacc tctaggtgat cggcctgcct cagcctccca 86160 aagtgctggg attacagacg tgagccacca ttgcctggcc ataaatacag tttaattcta 86220 ggagttctag aattttgaaa tttttgatac aagctttgat cttgattatc aatttttttc 86280 tagattaaat ttatgttaat atagcccttc taaatattaa aggaaattta gaaatttacc 86340 tttaagcttt attaacattt ttaatcatgg tatttatttt ctatccaagg catgatgctt 86400 ataatggtga tggtctagca ttaaaatttg ttgtctttac attcacaatc ggactactgg 86460 gtttgatatt taaatattta taattttata taaaactaag caaagtatct taagataggc 86520 attttccatt ttggtcaaat cttgtgtggc acattaattc attacgttga ttgcttaatt 86580 gagtttgagc ttggtagtat acatgattac aggattttta taccactgct gccaagatct 86640 agtggggaga atgtatccaa cttgatttct atagcatccg acatgcaagt tccctgttat 86700 tggtgccaga gttgggtttc ccccctacct ctctcaatcc tgctccttct atgggttttt 86760 ttttttcttc cttaaataca tatcttgaac ttgaggttaa gaagaggcat acattagcaa 86820 ttttgtgata ttaattgatg aagttaatat taattgttca tttaaaaatt tgttgaactt 86880 gcaacattat ttgaccagca aatacagagt gaggctaaga tgccaacagc ccactgttca 86940 gtcttattat tttcagaatt agaaatctgt acctttgtca ggatggatgc cttcacctag 87000 aaggaattca gatttcttct tgcttggcaa gggctaactg cagaaacaac ggaacacatt 87060 tttttaaaag tcaggagtat attagaaaca catgggcatt caacacctac ataaaatact 87120 ctatgagata aatgtgaata actggattta acaaagggcc agactttaga ataccagaat 87180 tcataaaaag gctaaactta ctttataatt taaggggaac acaaatcaac taattagaat 87240 gaataataaa gagtaatacc tatgctgctt ttttctctct tgatataact gtttgtgatt 87300 taggtagtgt taccttgttt cagtctcatg gtttttcttg tttgctaaat ccctataata 87360 ttccttttcc catcaagggg atatgtgtgg gtttgtgcta gaatcactgt ttatgactat 87420 tttcaggatt ttccatgttt tatgagatat atttcatctt tagaattttg ggtgggtcta 87480 gatttagaaa actgttttgg ttggaatgat aaggctctgg atctcagcgg gctttagggt 87540 tggaaaagtt gaagctcaca gagagcaaat aaacatggtc atcaaagctg agaattaaga 87600 tctgtttatc cacctgcaca cttgaattaa atctcagagc aatgggcaga gccattcaac 87660 ttatgaagat cctgacaaaa taaattactc tattcatgtt taaacgtcta ttttttgcct 87720 gtgtttagac acagaggttg gtgtagtgac catgtggtag atggagaagt tcttgtggaa 87780 ttactaagct attgatttac aacagggaga atgccactaa aatagtggac aatggtgaat 87840 taaatggaaa agtctgtttg aggtttgggg caagaagctt caaattgtaa aaatcacatg 87900 ggctcttgtc cttcagcact gagcagcatc atgattgaag attggagaaa gtggggagag 87960 agtactcagg ttaggtgtgg ttcacatcac ttttgcttta agggaattcc tcgtgtgtag 88020 ggttataaag ataacctaag atatggactt gggtaagtat tccctaattc attttcattg 88080 tttaagtctg ttgaggttca agtaaataaa gcaatgcttt taataatacc ttttttaaaa 88140 aatgcagggc acagtttgtt gactctgaga tctttgtggt caagatgaaa gttggctcct 88200 gatacataaa aacaaaacaa aaagccttta atttgtgttg attctcttgg ttctgtaatt 88260 ctcttttctc tatacttctt actgtggagc atgatttatg gtgataaaga gctttggttt 88320 aacttttgaa ctgaaagtat agcttcaact ttagcatgtg atgactgtag gacagtgaac 88380 ctcctcctta aaccattctg ctgtgtactt gtaaaccttc cagaatctcc ttttatttat 88440 aaagctagat ttgggttgga tatttccttg ggtaattgct tgatcttggt ttttcaaatc 88500 tgcatataaa ttctagagca gaagttcgtc agtatgtttc agagggcttt gtagtgtggg 88560 gctacttctg atgtagcttc agccagcaac ccttgccctt gccttagtct ctcagttgtt 88620 catgttaaag gggtggcttt ttcgtgaaag agtcataaat tgtttctcta aatatcattc 88680 catagggtct tcatgcttaa ggtgggttac aatcttggac aaccctgaaa atgaacaaga 88740 gttggattct ctctagctac cttttcctcc accatagcca tttcctcaca cagcctgtca 88800 gtattcccag tttcattgct cttctccagc ttttcccatc tccctcaatt ttttaccctt 88860 tctggcacag agaagttaaa cgatatccta atttttttga acctcactca cttacaccct 88920 actcaggata ctaagaatga taccagaata aaacctcttc agaaggcagc tggaaaaatt 88980 gtagatagta taagcttatt tttggtcagc tatgcaaaaa tgattttcaa atcataatta 89040 tctggcaata ttaaggtgta acaaaatacc atagtgagta taaaagcagg aaaattgagc 89100 aatagaatgt agagtgaagt agggagaggt aggtctaggg ttgggacttc ataactattc 89160 aaatgagaag tgataaaggc ctgaattatg agaagattca tggaaatgac aaaggtgagg 89220 gtcagaatca aatctgtagg agaagatatt atcatagaag ctagaggagg aagaaaacct 89280 tcagcaacct aggctattgg aattgtgagg atcagaaatt gagaatgaga tcttgaatga 89340 gggatgagaa aactggttgt ggtcttcata aaagcagttt tagagataat tcagcagagg 89400 atggtgataa gtagaggcaa caggtttaac tgacactttg aagaaatgtg acggtgacat 89460 tggtttggtt cattgttatg gaaagatgct aacaacttag ctgaaattga acaagttatg 89520 acccaacagg tacagtatga tgtgtatgaa aaacacaaat tatataatgt atacatgcat 89580 atatatataa aggagcattt gggaaagtcg cttacccaga attttattgg taactgtatc 89640 tgaggtgatg atttttcatc agaattggtt ccctagctct gccccccaac aattgcagat 89700 ttagggaaat aaagtattaa atgagaatta tttggaaagc atagataggt tttcaagtga 89760 gagaatgtcc atgaaataga ttcaacatgc aaataaaaga gaacagttga tagaaaagag 89820 tcctagaata gatgtgaaga gtagatcttt ctggccaatt caagatgtta tattggcctt 89880 gattcctgat ccctgaaagg gccttgtttc ttgtttggtc cctttggtag aataagccct 89940 ggttttggga cttcctggat gagaggctgt gggaagcttt ggggaagaag gaagactctc 90000 ttgtggatct aaaatctgtg tagatttgct gcaagttgct ataaatataa tggccattaa 90060 attgttataa taaaggaatg acatggtata caatgtactc tgtatagctg ccagtctgac 90120 cacttattgc ttgatattag ttttatacac aagactgatt atatggaggg taaacaacat 90180 gtagtctcaa agctaaaagt ttcaataatt gatgagtttt ctatttcttc tctcctaatt 90240 ctttcttggg ttaactcgat aaaatgaagt cattgtggcc tcatgtattc tgttgtattt 90300 atgaccttgc ttggcgtagt gaaaactaaa agttacatga atttttaata ttttagaaat 90360 tataatattt cagattgtat catttctaca ttttatacca gctataggaa agagtatttt 90420 gtgtcttttc ttttaaggta cgattgtccc catcagatgc agtgaacttc atatggttca 90480 ggtattaact tatcttagat gctatttcga catttgctta gtactgtctt ctcccaccat 90540 gtcccatcag taggatattt ctgtttggaa aaaaaaagta aataatatct tactggtgag 90600 taatataatt tatggaatct tcaaaagagg tgtaattgta agtaagtaca ttgtactgaa 90660 attagcacat agcctttata tgctttactt tttctaatga gatataattt acttgtaaat 90720 tatgcatatt aattgtaaaa atgtacaaat atacttagat aaatgcatag ttttgggttt 90780 tgcaaatgta tacatttgtg taaccaaaat ccaggcaaga tatagcacat ttccatcaac 90840 ccctttagcg aattgactag tgcacagggt aaacttgtgt catgggggtt ttctgtttta 90900 ttttctccaa tattcacccc atgaccccaa ctcatatcct cctggaaact tagaaggtga 90960 ccttttttgg aaacagggtc tttgcagatg caacgaagat gatgaagatg agattctatg 91020 ggattatggg ataaagatgg gccttaaatc caattagagt gtcaatgtaa gagacagaaa 91080 aagacacaga gatacaagag aagaaggcat aagacaatgg aggcagggat tgacttcatg 91140 taactatgag ccaaagaatg ccttgggcta ccaaagactg aaagaagcaa gaaaggattt 91200 gccagagtcc ttgagaggaa gcacgccctg ctgatacgat attgggattt cagacttcta 91260 gtctctagaa ttgtgataat aaattcctgt tgtttaagcc accaaattgt ggtcatttgt 91320 tacagcagcc caaggaaact aatatacctc ctccatcccc cgcaaattct attatgcccc 91380 ttcccagtca gtcctccaat cctccaaagg catgtagtag tcttatttct atcaccacag 91440 attagccgtg cctgcctttg accctaatat aaatgaaatt atctagagca tgctcttttt 91500 tgtatctgtt tggattcttt tgaccagcat aatgtatgtg aatttcattc atgtcatgtg 91560 tatctgtatt atccttttta ttactgagta aaactcaaat agtttgaata taccgtaatt 91620 tgtctattct gttcatagat attcggattg tttcttccta cccatatttt atacatatat 91680 tacatctttt gtagctgtca ctggtttaga agttatagat tctgttattg tttttgtagt 91740 taggaactta aagttatagt aattacattt taatttacat tagtcttcct cactgataat 91800 gcggaaactc tgaatgcttt aagtttggct tccttctcaa gtcttctgtg ttatttttgt 91860 gaatataaga tatttagttt caaaacttga aaatcattat atgtttttta catgctatgc 91920 ttttgtatag agacatgaac atgtttttca attggtgtga tcactatagc ttgttgcatt 91980 ctacttcctc tgggttctgt tttattttct ccaatattca gagtttaatc ttttagttaa 92040 tgctttaaaa aaaattaaga tatttgcctt tactttggct aaaatatctt cattttgctc 92100 acctggttaa actataactg cttatagaat tatagtttga taatttttcc tcaacatgtt 92160 gaagatagta tctcggctat ctaatcttta tttttttcta agtctgctgt cagtcaaagt 92220 tttatcctta tctagataat ctgctattcc tctctggctt gactttattc tcatggcatg 92280 taaatgtact gcatttagat gtagacttgt ttggtctctt aatttttaat ctaagaactc 92340 atgtctttat ctggaaatta atcagccatt atctctttga acagtgtgtt ttattccttt 92400 tttaacatat acttttaagt tcacgggtac aagtgcaggt ttgttacata ggtaaacttg 92460 tgtcatgggg gttttctgta cagataattt catcacccag gtattaaggc tagtacccat 92520 tagttatttt tcctcatcct catcttcctc ccatcctctg ccctccaata ggcaccaggg 92580 tctgttgttt ccctctatgt gtccatgtgt tctcatcatt aagctcccac ttataagtga 92640 aaacacgggg tattttgttt tctgtttctg tgttagtttg ctaaggataa tggcctccag 92700 ctccatccat gtccctgcaa aggacatgat ctcattcttt tttatggctg tatagtattc 92760 catggtgtgt gtgtgtgtgt gtgtgtgtgt gtgtatcaca ttttctttat ccagtcagtt 92820 gttgatgggt acctaagttg attccatgtc tttgctattg agaatagtgc tgcaatgaac 92880 atatgtgtgt atgtgtcttt ataatagaag gatttatatt cctctgggta tataccccgt 92940 aatgggatta ctgggttgaa tggtttttcc atctttaggt ttttgtggaa ttgccacact 93000 gtcttccata atggttgaac taatgtacac tatcacaaac agtatataag cgtttctttt 93060 tctccacaac ctctcagcat ctgttatttt ttgacttttt aataatagct attctgactg 93120 gtgggagatg gtatctcatt gtgatttctt atttgcattt ctttaatatt cagtgatgtt 93180 gagttttttc atatgattgt tggccacgtg tgtgtcttcc tttgagaagt gtctgttcat 93240 gtcctttgcc tgcttgttaa tgattttttt ccttgtgaat ttaagatctt tatagatgct 93300 aaatattaga cctttgtcag atgcatagtt tgcaaatatt ttctcccatt ctgtaggttg 93360 cctgttcagt ctgatgatat tttcttttgc tgtacagaag ctctttaatt agatcccact 93420 tatcaatttt tgcttttgtt gcaattgctt ttggcatctt tatcatgaaa tctttgcctg 93480 tgcctatgtc ctaaatggta ttacctaggt tttcttccag ggtttttata gttctgggtt 93540 ttacctttaa gtctttgatg catcttgagt taatttttat atatagcata aggaaggggt 93600 ccagtttcaa tcttttgcat atagctagcc agttatccca gcatcattta ttgaatagtg 93660 aatcttttcc ccattgcgtg tgtgtgtgtg tgtgtgtgtg tgtgtgtgtg tgtgtttgag 93720 atggagtttc actcctgttg cccaggctgg agtgcaatgg cacaatcttg gttcaccaca 93780 acctctgcct tccaggttca ggcagttctc ctggcttaga ctcccaagta gctgggatta 93840 taggcattcg ctaccatgcc cagctaattt tgtgttttgt ttatttattt attttttgta 93900 gagatagggt ttctccgtgt tggtcaggct gatcccaaac tcccgacctc aggttatctg 93960 cctgcctcgg cctcccaaag tgctgggatt acaggcgtga gccaccgcac ccagcccctc 94020 attgcttgtt ttggtcaggt ttgtcaaaga tcagacagtt gtagatgtgt ggtcttattt 94080 ctggatactc tattctgttc cattagcctg tctgttcttg tatcagtacc atgctgtttt 94140 ggctactgta gctctgtagt atagtttgaa gtcaggtagc atgatgcctc cagctttgtt 94200 atttttgctt attattgcct tggctatttg ggcttttttt tggttccatg tgaattttaa 94260 catagttttt tccagttctg tgaaaaatgt caatggtagt ttaatggaaa tagcattgaa 94320 tcgataaatt gctttgggca gtatggctat tttaataata ttgattcttc tatccatgag 94380 catggaaggt ttttccattt gtttgtgtta tctctgattt cttgggtagt gttttgttgt 94440 tctccttata gagatctttc atctccttag ttacctgtat tcctaggtat tttattattt 94500 ttgcagcaat tgtgaatgag agtttgtttg tgatttgact cttggcttga ctgctgttgg 94560 tgtgtaggag tgctagtgag ttttgcatgt tgattttgta tcctgagact ttgctgaagt 94620 tgcgtctcat tttaaggtgt gttttattca ttctctttac tctttccttc tgtagtaact 94680 actaatcatg tattggaacg tttctgtttt tttcttacat gcttagtacc tttttatctt 94740 gttttgtgct acagttattt aaaagtgttt ttggttatgt cattctcttc taccattcaa 94800 tttgtccata gaattttttg ttaagtttta gaattttcat ttcattgtaa tgtgcacatt 94860 cttgcttttt cccatgtgat ttctagttat ccctttatct cttcagatat tctgtagata 94920 ttcattttaa agactccttt agaatgtcct tatttctggt tttttaggtg tgaagttttc 94980 ttgttactga tattgttgac tgttcctcat gaaggtttac ttgctcatat gatttgttca 95040 tcttgatgtt aaggtagcat ttcatgaaag tctaggtctc aggattgtag aaaatatcta 95100 gagagtaatt ctatatttat ttattttttc tttctgggtt ttcctggatc tggacaaatt 95160 cttattttaa cttgtcaaca tcatatagcc cccatgctac aatgataatt ttgatttgga 95220 tcccagcctt gtggacttgg tgttctgatg tctcatgaat tatattttct cttgtgctta 95280 cctgctgtgt gctcccaagc tagggtcaga atcccctgct ctagccagtt agggcagggg 95340 gtcatggaca aacagcccca tttactccat ctacataaag ggagctaagt gctagatctt 95400 cacataaata tttcttggcc tgggttgagg accttgccct aagttctacc tctgtctggt 95460 ctgacatccc catgagccat tcagctttag cttctggcct caactctgcc tctgagtttc 95520 ctctttgttt ctaagtttgg ttgtgtatta acaacttttt gggtggcgga ggtagaggga 95580 agaaggggag ggatatttta tttagtattt ctatgtgagt atagcagaaa gaaaagaaac 95640 atttgtcttt tcagcaggtg tatttaccaa aaatctgatt atactgataa ttaaacacaa 95700 tttttgtttt tcttttacag ctagttatgt atcaaatccc atttgcaagg gttgtttgtc 95760 ttgttcaaag gacaatgggt gtagccgatg tcaacagaag ttgttcttct tccttcgaag 95820 agaagggatg cgccagtatg gagagtgcct gcattcctgc ccatccgggt actatggaca 95880 ccgagcccca gatatgaaca gatgtgcaag tgagcatttg gttttgtcta tcctgtattg 95940 ctggatatgc aacttaggag aggagctaag ttgaagattt tgaatgattt ttttaaaaaa 96000 aatgtgtttg taataggtga tagaaatagt ttaagcttgc tgggtgtggt gggtcatgcc 96060 tgtaatccca gcactttggg aggccaaggt aggtggatca cttgaggcca ggagttggag 96120 accagtctgg ccaacatgag gaaaccccat ctctactaaa aatacaaaaa ttagccaggc 96180 atggtggtgc acacctgtaa tcccagctac tgggatagct gaggcaccag aatcacttga 96240 acctgggagg cggaggttgc agtgagctga gatagcaccg ctgtgctcta gcctgggcaa 96300 cacagtgaga tgtcatctca aaaaaaaaga gtctaagctc aaacttggaa aaaatgagta 96360 tggtaggata agagcacttt tactttatat tttgtataga gctgtaagac acaattccac 96420 atacacactt tattttagat tatgtaagta gttttttaat cacaacgatc tcaagtacaa 96480 tcttgtttga cagatttttg taacgagtac ctactcagtg cttataaaaa aaaaaaaacc 96540 acaaaggaat ttaagtactt tatgctgaga acaatctctc tggtttacca atttctatag 96600 cttctttttc tctttttatc tgagttggta atccttcatt agtctaacct gcaattaaat 96660 atatggtaaa ggtgtttttt tttaagtacc attactaata taactaaaat gtttaggtta 96720 ttttaaagta atctgaatta taagtttaac aactatttaa aaacgtttaa ggaatggcat 96780 tttgtacata gtaatgaggg tgcaattttt catcttttaa tccaaaaatc acttacagaa 96840 tgagtctcgt cttctaggtc agccatagaa attgtggttt aaaaaaatag ataccaaagg 96900 aacatccctt tctttaagga actcaaattt taggggatag aaaggataag aaaaagggga 96960 ccacagaata aaatgacaaa aggtaagcag gttattcata atttaatata ttaagggctg 97020 tgtcagtaat cattaaatca ctcatatata tatgagataa ttaaatctca tatttatgag 97080 agtgatttaa tgatctccca ttaacacact gtgtatgtgt ctattcaggc aagacagtct 97140 ttagatgaga agagtttgaa ttacatcaac caaggacaat attattttgg aaggtggcag 97200 aactagtggg ggctggttaa ataaattcta gaaagaagga accacatata tgtaaaaata 97260 atgtatttgg ggaacaagaa ctctcacctg gagtgttatt tggcattttg gcaatgcagt 97320 tctctgtttc atgggacctg tcctacattg ctggacattt agtgtccttg gtccctgccc 97380 attaaatgtc ctttgtgtct tcactactgt tataagcaaa catgtcccca aacattttta 97440 aacacttcgt ggaagagcag tacagtagct ggatgaaaac cattgaagag catgtgccta 97500 gtgggaggtg tggttggaat tgaggaagga aagggaggct gcagtgcaac tgataaaggt 97560 gtttcctgcc aggctaagaa gtcttggtat tatctaaggg tactgagtag gcagtgaact 97620 aaagagattg ctttaagata attctagcag aagtgaggga gatgaattgg agaggaacaa 97680 aaagtaaagg aaggctatta taatgattgc agattagaaa acttgttctg atgatttttt 97740 ttgtgggtaa taaattgcgg aggctttaaa aatagaacca gtggggcctg gtaactaact 97800 ggacagagct aagagaaaga atcaaacttg atcctaaggt cttctagcta aagtactgga 97860 tgatgttacg tcgttagcag agttagaaat atttaggctt agaggaaact tggatctacc 97920 ttcatttcat ggaattgttt ggattaatat ttaaaggaaa caactcccca ccagttgtag 97980 actggcttgc aaatatgttt gcaaatatga attttgttct taaggcatat gatttaggct 98040 acttgataat ttatttctca tagtttataa acttccagag gaagatatgt tccaccttgg 98100 aaaggattcc tgttcagatt tctttagact acctatggcg ggggtggtgg tttgagtcca 98160 cagttttatg tgtttcattc cagactatta gcgcacaagg aagacaaggc aagagtgtag 98220 atggatagaa acatttattc caagttctag ggctagcatt gtatgtactt atatggacaa 98280 tagggtggcc gtataatgta ttactcaatg tgggacactg ggaaatgaga ggggctgcca 98340 ttaacaacta tgcagggata ttggatgtaa accaggacca tcctatgcaa actggtatga 98400 atggtcacct gagcaatact ttgtagtata tcaatggagt cttccttaga tactctcagg 98460 caggagttaa tagcacattt tggcttagtt ttctcagaaa tggaaaggag agcagtgact 98520 gtaaatcagc cttagaaaga aaatctgcat atgagaaagg gtttgctatg gatagacttc 98580 ttgtaagtga atacaatcaa tgttggagtt tactgaccta gagaaaatca ttacctggta 98640 caagcaggaa gtgctattaa caagacccca ttagagcaaa gtgaaaaatg gaaaattatt 98700 tcttaacagt atacgacttt ggataatcat gtttctttca tgccaattat ttgctctttt 98760 tcatgactag tttgcatata ttgcattgat atttgtattt tattcagggg atgagaaaga 98820 tttaaattgg aaaagctgtc acagacttag aatttgaaat gatatccact tttctcttcc 98880 ttaaaagatt atcgctcaat agtagagaag aaaattatac ttttagcaat agtagcctaa 98940 aaaatcttgt aagtgaaact tgaaacttgc tcatctgttt cctaatcact agagtatgat 99000 ttccaatgta aagcaatatc cttcttttga aggaagattt gctctctgaa aagttgtctg 99060 aggttggctt cttggtgcag acagtatgaa gcttatgcag ttcaaccata cttatggaaa 99120 ccaatccaac aactatctga gtaattctgt gatacatgta ctaacagaca ctagaagctg 99180 ccattgtccc tgatactatg ttagatgtta attcactcat attttttctc attcattaat 99240 gaaatcattt acataaaact ttattcttta aattgttcta aatagtcctt gtagaaaact 99300 tagaaaagta cacaggccta aaaaaagcaa aagcaaacac ttctctcaaa gataacaaca 99360 gttaaaagat aacaaaaacc attttgtctt ctgttcttga catttttgtt tctatgagta 99420 tttgtcgtta tcctcacctt acaaatgtgt cattgtgttt tgtaacttgt ttaatgaatt 99480 atgaacatat tttcatgcca ttaaatacgg ttgcaaatat tctactgaat ggttatacta 99540 tagttaattg cctattgaaa ttcactttta gtttttcatg attataagca gttctatgaa 99600 aaatatcctt atatataaat tcttgctctc tcatacacat atttttacac acttgcatgg 99660 tttattttta taagataaat gtttaaacat aatacatgtt ttaaagatat atattgccaa 99720 atggatttct agaaaagttt tatcagttta catcttcact aacagtggtc attttcactt 99780 gcatctctct ggctattaat aacaagtata aaacttcatt tttgtcttaa tatgcttttt 99840 ctttgacaca aatgaagctg aacacatatt tgtcacttga atattggcat tataggatgt 99900 ttaccagagt cactgctccc cttttttcta tttgcacaac tgtcatgttt ttagtaatta 99960 aaaaataaac tttttgaagt atcatgcaga attctaaatt cacaaataat aaatggagtg 100020 tttaatgaac tattacaaag tagatacatt taactcccac tgatgtcaag aaagaatgtt 100080 agtactaccc actcactaac ttcccattca ctactgtctt ctcctttggc ataactacca 100140 tcctgacttg taaacaaaac acatataaaa cattattcat ggcaacacta tttttttaaa 100200 aacataatta ctttattgat ttcttacaat caaataccac caactagcat tacttccact 100260 cttgcatcat taaaaacaaa gggtatttcc tccttggtat tttcaaatga tgcattatac 100320 aataaacaaa gttagaactt gaaacgcacc ctgattaatt atgtaaactg gtaatttgtt 100380 taaaaaagca taataatttg gttcctttct tcataaaatg gaaatttaaa tatttcttct 100440 gatagtcttg aggttatcat tatgagtagt gcaaagtgtg gcacatatag tttcatctag 100500 aagggtgtgg atcttacctt aaacaaacaa aatgtgcatt aacaaagtgc atacagttaa 100560 tgcatgatag aaagcatgtt tcaaatataa agcagcccct ccggccacca tattatttag 100620 gttttgcatt atcatttatg gcattataga ttaattacac ataactttta tacattttaa 100680 acctgaagat aagaaaaata actgttgctt ggaagaaatt attccaggta gccatttggt 100740 ttggatcagg agaaactgaa cctccatgag tttagcgtct gccaagtcag aatcattagc 100800 tcaagtgagt gaatgagata tgctgcgcat ttcacagtga ctgtttccca agtcctggca 100860 atgcctctgc tcccacagtc caccagatga agcatttccg ggatgaccct tctatgtggt 100920 tttccctttt ctttttgctg gattaacgat tactgtatta tttcctcttt tccccttttg 100980 gtggccttct atttcaatta ttcataaatc ctttcagaat atcctcagag agctccataa 101040 gaggaagttc tgtagatgga aaatccaagg gcggaagaca ggaatgtcct tggctttccc 101100 agtatttgct gcaaacttct gccaggttga ggaggctgta gcagtttctg aatgtggtgg 101160 caagctccat aactctgatg tttctacaaa atcagcatct acatccagct ccttttctat 101220 tggacctttt agaagtctgg ccttttcagc ctttagttgt tattttcttc ccttaatctt 101280 taattctctg ccacaaggaa ttccacatgc ctcttcaaat ctgcaatttt ggttgcctgc 101340 tcctctataa ttgttttatc gtcttttggg gctttacttc caatacatgg ctctgctggc 101400 tcactctttt gctgaagtaa atatagtagt gtgtctggat ccctgtcaaa gatcccctga 101460 atctcaggca gacatttctc tgtggaaggg ctgtacttct gagaaagggg actctggccc 101520 tctgcatcct ctacagaggg tttgtgagat gcctgaagat gggcagctac atccttgtct 101580 gtgttctgct gggctttcaa tcttgcttca ccctgggccc ttttccatct ctcttggatg 101640 aggaggagct gtttcatatg gctatccctt tgcaattcca gtgaaagatg agcctgctca 101700 gactgtgtca gcttcatagc ttcagaaaga tacgctgcag cctttttgtg acaagaaata 101760 gcctcttcgt atttgcctac agctaataaa cggtctgctc atctgctctg ttgatgagcc 101820 aggttgaggg gtccttcatt acttccatag accctggggt aagcggcggc cttaggaagg 101880 ggagtagtgg tgccagggaa catggagggg actgcagggg agcgtgacac agccgcagag 101940 actgtggccc ctctctgcac cccaggagcc agtcgtaggc gctgagggag ccaacactat 102000 ttatactaat tacaagttgg aaacaactca aatgtccaaa caatacaata cctaaaaaat 102060 atagtatatt aatattgaca tttaacagaa agcaaggaaa agccagtgga ggaggctgtg 102120 actaagtcac taggaaagca gagaggatga tgtcccagaa gcagaatggg aaggcttgcg 102180 gagaagtaag tggtcaatgt cagcgttgca ctgtttaaac aatagagttg ttgaccttca 102240 tatgagccat ttcattgttt ttgttgggtc gctattctga ttgctatggt tttggggagt 102300 acatggagtc ataggaaagc agccagtgat tatatacact cattctcttc ttcctctaag 102360 tgtatttaaa aagagaatct gataactgga aggctcacac agatggggaa gttggggtgt 102420 gtgtgtctgt gagtgacagg agacataact aggaaagagc cagctgagga ggaaagacaa 102480 aaaataatga agaaacaaga tcactgaagg gacagaagag gatagagtcc aaaacatagg 102540 tgggaaaatt agccttggac aaacatttat tcagcaattt atgaagtatc tacctcatgt 102600 caatcaaggt taaggattct tttttgtcat gtaccaggaa ggtatcagaa atatgctgaa 102660 attaaggaaa aaggaggagt aaactttttt aacctccaaa tttatgtata agaaaacaat 102720 atactttgcc agaaatagta ctttggaaaa tcatctgtaa acaaatacag aaatgagata 102780 ttttataatt ttagatccat gaatttgcta cattttaact atttctgcta cattttatga 102840 ttctaccctt gttttgacat tttgtgaaat atgtatttag gctaggagaa cactacattt 102900 tgtttccttt tttttcttct ttctttcctt cctttttttt tttttttttt ttttgggggg 102960 ggctgttgtt gcacagtcat agctcaatga agcctcaatc ccttctgtgc tgaagggatc 103020 ctcccactac agcctcccca gtagctggga ctacagtcgt gtgccactat agccagctaa 103080 ttttttaaaa aatgtattat tagagatgcc tggctgttat ttatttattt aaatattttt 103140 agagatgaag tcttgccatg ttggctggtt tctaactcct ggcctgaaac aatcctccca 103200 cttcagcctc gcaagtagtt gagattatgg gtgtgagctg ctacattttg cttttcaaat 103260 gaaatgacac aggttttaaa aactagtaat ttttaacata taagaaaatc caaagttaaa 103320 tatcatcttt taatttgtga actccaagat cactatttag gtgtttttaa agaattacta 103380 catgtcatca agtttgaatg cctttagaaa cacctgtttt cttgtctttc tttctttctt 103440 ttttctgaga cagcctcact ttgtctccca ggctggagtg cagtggtttg gtctcagctc 103500 actgtaacct ccgcttcctg ggttcaagta attctcgtgc ctcagtgcac caagtagctg 103560 ggactacagg cgcacgccac gatgcctggc taagtttttt gtatttttaa tggagatgaa 103620 gttttgccat gttgcccagg ccagtctcga actcctaagc tcaggaaatc cccccatctt 103680 ggcctcccaa agtgctaaga ttacagtcat gagccactga gcccagcctg tcattcttga 103740 ataatgtaat ttaatgatgc atttggggaa aaaaaaagtc taggtattta aaattaacat 103800 aaatatgttt gaaatgtcca aatctggaca actgtggaca cacatataat tattctaagt 103860 accataaatt ctatataatg tgtttgaaga tctataaaga tacagacttc caaatatatt 103920 gatgtaaccc cagtatgttt gggattactg agaaataaaa ttaaaaataa caaatgtctt 103980 cgtttggagg atacttagac cattaggttg gagaccatca ggttgcatat gaaactgata 104040 cagaattaga caacagtatt agatagcatc attacataaa gtggtgctga accccagtgg 104100 gccaatgggg ttagtatttt gcacagttat agaagggatc acagaaggga caagttagtg 104160 gttaggttag aacagtcatg aaaaattgca gggctcaggt gtatccttcc cttccttcac 104220 catctaacct gggtggcgag gctgttaaga gttaggggca ttctaggttt agaggaaatg 104280 catgagcatg aggggtgaaa ggaccagtga caagacctga tagaagacct ggagataagt 104340 gattgatgtt gaccaactaa aggtaatagg attcaaattc agggactgta ttctgattac 104400 acttaaacca gaaatgctct aaatcatgta ttagagttat tttactttag gtttaatctt 104460 tatcaaacca gcacatgaat aagggctaca ttttagaagc ctataatatt ctttaatttt 104520 ggaatacagg cagtgctgga attaagaaag cctggtgaaa acagccactt gcatggtttt 104580 cccaacagta ttagtaggta tttatctgat aaggaaagag aggggaagac tgtaatttag 104640 gggatggctt agcctgctta atacagctta cacatttagc aaacatttac tgctgatata 104700 ctaggcaggg ccaatgtgtg tttttattaa aaaaaaaatg gaatggaatt gaatgtgcta 104760 agaactgtga gggtgacaca ctggctgctc agggaaccca tggggcatca gctgacttgc 104820 ccttggagat gggtgagtct tcagattttc cgaagagtgt gttataaaac tatcttgaaa 104880 gaggagtagg gtgagtaaga gtaagagggt aaagggtact catagcagag agtcacttga 104940 gcattggaat gcaaaatgtg agaaatgaaa tcttggaagc tgaggatgga ggattcataa 105000 gctgggaaga catataatgc tcttgttgta gaatgtcatc tgatgtcacc aggggaaata 105060 ggttgagcag agagccagag aggaggcaca gagaccaatt aggaagctgt tgctgtaatc 105120 ccaggccaga aaccgggact tcagctaagg cagtggtact tgaggtgggg aggaagagac 105180 agattcaaga gattagaaga tagaaccagc agaaggtggt tcattggaca caagggtaag 105240 agagggaaga gacctcaatg actcacagat ttctgccttt ttttttttaa ttattattta 105300 agttttaggg tacatgtgca caacgtgcag gtttgttaca tatgtataca tgtgccatgt 105360 tgtgctgcac ccattaactt gtcatttagc attagtatct cctaatgcta tccctccccc 105420 ttcccgctac cccacaacag tccccagtgt gtgatgttcc ccttcctgtg tccaggtgtt 105480 ctcattgttc aattcccacc tatgagtgag aacacacggt gtttggtttt tggtccttgt 105540 gatagtttgc tgagaatgat ggtttccagc ttcatccatg tccctacaaa ggacatgaac 105600 tcatcctttt ttatggctgc atagtattcc atggtgtata tgtgccacat tttcttaatc 105660 cagtctatca ttgttggaca tttgggttgt ttccaagtct ttgctactgt gaatagtgcc 105720 tcaataaaca tacgtgtgca cgtgtcttta tagcagcatg atttataatc ctttgggtat 105780 atacccagta atgagatggc taggtcaaat ggtatttcta gttctagatc cctgaggaat 105840 caccacactg acttccacaa tggttgaact agtttacagt cccaccaaca atgtaaaagt 105900 gttcctattt ctccacatcc tctccagcac ctgttgtttc ctgacttttt aatgattgcc 105960 attctaactg gtgtgagatg gtatctcatt gtggttttga tttgcattta ctctgacggc 106020 cagtgatgat gagcattttt tcatgtgttt tttggctgca taaatgtctt cttttgagaa 106080 gtgtctgttc atatcctttg cccacttttt gatggggttg tttgtttttt tctggtaaat 106140 ttgtttgagt tcattgtaga ttgtggatat tagccctttg tcagatgagt aggttgcaaa 106200 aattttctcc cattttttag gttgcctgtt cactctgatg gtggtttctt ttgctgtgca 106260 gaagctcttt agtttaatta gattccattt gtcaattttg gcttttgttg ccattgcttt 106320 tggtgtttta gacatgaagt ccttgccctt gcctatgtcc tgagtggtat tgcctaggtt 106380 ttcttctagg gtttttatgg ttttaggtct aacatgtaag tctttaatcc atcttgaatt 106440 aatttttgta taaggtgtaa ggaagggatc cagtttcagc tttctgcata tggctagcca 106500 gttttcccag caaccattta ttaaataggg aatcctttcc ccatttcttc tttttttgtt 106560 gcccaggcta gagtgcaatg gcatgatctt ggctcactgc aatctctgcc tcctgggttc 106620 aatcaattct cctgcctcgg cctcccaagt agctgggatt acagatgcca accaccatgc 106680 ccggctaatt tttgtgtttt tattagagac ggttttcacc atgttggcca ggctggtctc 106740 aaactcctga cctggggtga tctgcccgcc tcggcttccc aaagtgctgg gattacaggc 106800 atgtgctacc atgcccagcc aggtttctgc ttttaagaat tgtataaata ctggtttatt 106860 ggatattatt attgatttat tgggattatt ggatattatt attgattttg gttttgattg 106920 atagatagca aaaggagttc aggtttagaa atgttgactt gagatgacac agttgcgtag 106980 agatgtgcat tggagagtcg gatacctgag tctgttttag ataaaagcca gttaggatct 107040 agtatctcct tgctctcctg tcacatctga cgatcctatt aatactgatc aaaaatactg 107100 atcacaggta cagatgttac caggaatatt tattatgctt aaatgcttac caggatgcta 107160 atatatggtt aaacctgaat ctggtgggag tgaaactgct acatcatcta cctgtggcaa 107220 agatatgtga tacctccagt agtccttcaa acagagggcc atatattggg aaaattattt 107280 tcctctacag tgaatggcaa acaggaccac cccacacaaa tttgtatagt ttttttacgt 107340 aggtgtctgt ctctctcagc cccactcccc caaactttac ctatgttttt tattggtcat 107400 gaccctttct cttctactga ctgtgtattt taatcattat cccatctcca tcattcccaa 107460 agatgggagt tgttcattgt tgacacatac tgctttgaaa cctcttcata ttagaatgaa 107520 gtggttctca aagtgtgcat cagaaccacc tgttaaaaca cagattgcaa gattgcaccg 107580 ccagagtttc tgattcagta gatctgagat ggagcccgag aatttgcatt tttaacaagt 107640 tcacaggtgt ggctgacccg actggctcaa agactacact ttaagaatca ctgctaccgt 107700 gtaataatta tgtcactagt tatggaatag aagacttcat atttaatgga agacgagttt 107760 cagtaccttc taagcatatg aggatattat gaggaaatgt atatttctcc ccacttctct 107820 cattcacaca tacctgttta tgggctgtac tgatcatgag ctgatcatga tagaatgtgt 107880 tagaatatgc tggcttttgg gacagccttt cactatactt gtctctcccc ttccctaact 107940 tttttctctg cctcccacac tttctcatac catgtttctt ccttctctaa gattttcact 108000 actttatgtg ttctggcaca tgcattttaa tttgtaattg tgtcttgtat cttagaacta 108060 atttattcta ttgatttttg ttgataaagt tctgattgaa ctatagcttc tacatgaata 108120 gaatcatttt aaagctttat tttgtgcaat agtttaaaag aaaggaagag gaggggagtg 108180 tttgtagaca ggagaacagg gatcatggtg gactgtgcag ccagactccc ttcttgctca 108240 gtccacaact ggcttccagg ttagaggttg gacaggtgcc ttaaattact ctttaacaat 108300 gagtgaacta cataatctga gccccagtgt cctcatgtct aaaaattagc agagactgtg 108360 agatcattgc tctaacattc tgtggttctg tgaatgcttc cagaagttac tgccttttga 108420 cattccagac cagcctgtct cctcaaactg cagatagaaa tggccattct aatactctcc 108480 taagaatcct atgatatagt taaacattac attctactct atagtatttg taaacattta 108540 cattgcacat ttgcactctg acaagctcag agaggtttac aaacctaccc aaaggacaca 108600 cagtatggag agctaagaac aggatctagg attctctcta actctaatgc ccatgtttct 108660 ttaattaaac catgcagctt ctcttggaga aaacaaagta aaaatgcatc atttggtcca 108720 gttcaactgc ccatcataaa aaagaaatac atcattggat agggttagga ttttttcccc 108780 tttggcagag ggtgaggcag gtaggtcttc actttgaagt ggtacacttt cagcattctt 108840 ttgtgctggt ttcttttcca aattgaaaag ggacctttcc tacagcccag tctgcagaag 108900 gcacttcatg ggttaacagg ctcctgccag ctggagaaag ctcattgccc tgaagtggct 108960 ttacatcact atgcaggagt ggctaccagc tggttaatac cctggccgtc acttgatggg 109020 gtggacaccc tactatccac ttattagaag acagctggat actattacat gccaaatctc 109080 tcagttcttt tatgctttct cctgaagaaa acccatcttt gcaagacagc tggctatatt 109140 tggatgtacc tatgactggg ataaaaccgt atatctagaa aatctcacaa ttgtcaattg 109200 attttagttt tgggagatta tataaaaaat gtgacctcac cagggccaca gtttagttga 109260 ggccagccag tcaaggcctt ggcatctcat aagttctcag tacatattaa ttgaatgatt 109320 aaaatgtccc aggtggcatg gggtccctaa gagtaggagc aagggctcac tatattagtt 109380 gctcttttgt gccagatact atgtcgtggc ttactactta taaacactta tttagcactt 109440 tgggggctaa gtcctttcaa tgagttattc agtagataca tgactaccag aggcaagtga 109500 actgaggcgt agagaagtta aatagttcaa tgaaagtcaa ttagtatgta gcggagataa 109560 tactagagtg tgtgtgtggc tgatgacatc ctatgtttgt tgttactgaa ctgtaagttt 109620 cctggaatgc ttttcagttt tgttccacag atcactataa atttgtggaa gagaaaaact 109680 gtaaattgaa actattttta catttaatga aggcattcct atttattaac tacttttagc 109740 atttaaagtc atgtaaagat aaatgaatct cttgatcaca agatactaaa tatgaattat 109800 ctaggaaggt ggtggtacag tggaacaacc tgataggcca ctatttatca tgggacagcc 109860 cttttcaatg tctttgttat tgtttcagtg agctagtgtg gacagtgata atcaggtggt 109920 tcttttattt aataggaaat aattgacaat gtaccaaatc tctgcattct gtagattgaa 109980 ttcagatgaa gataagcagt aacttactgc atcggttaaa gaaaagaaca gtacacttca 110040 aataattctt aaaggagagt atgtcttgtt caattaacaa acactttcac tgattaacct 110100 gtgtgtgtgt gtgtgtgtgt gtatgtgtat gtgtgtgttc acaatcctgc atgacctttg 110160 tcaggtagat gttcctttaa actaattaaa aattatatac atagatctgg aagagactta 110220 attatatttt cttcttcttc ccccctccct gctttttcct ctcccctctc tccctgtctc 110280 tctccctccc acctctcttc cctcaacaaa tgtggatact gaacattaca aaggtagtat 110340 ttctccaaag tcacataatt actcagtagc agagtggcct tgacatctaa gaatactgat 110400 attgcactgg tgtcaaagtc tttctctctt tctctgtctc tttctttctt ttggttaaga 110460 caaggtctca ctctgttgcc cagactggag tgcagtggca caatttcagc tcactgtagc 110520 ctcgacctct caggctcaac ccatcctcct atctctcagc ctcccgagta actggcacta 110580 caggtgcgtg ccaccatgcc cagctaattt ttcttttctt tttctttttt tctttttttt 110640 ttttttgtag agatgaagta tcgtcacata gcccaggctg gtctcaaact cctgggctaa 110700 tgtgaccctc ctgcctcggc ctcccaaagt gttggaatta ctggcataag ccgctgcacc 110760 tgaccagaat gctcttttca ttgtatagtc cttgctcctt ggtatgtgca gaggatcagt 110820 tctgggacca ccctggaaca gttagacctg cggaattcaa atatgaagtt ggcacccctg 110880 taggcaggtt acccattcag caaatacagt attttcaatg catgttgttt gaggatgtgg 110940 aatgagccaa tacagagggc ttacagtatt tattgaaaaa tcttcgtatg agttgtaaac 111000 caaacagtga ctgaggcagg tctcaatcga tttagaggtt tattttgcca agattgagga 111060 cgcatttagg aaaggaaaac acaagttaca gtagaatctg cggcttatgc tttttccaaa 111120 gagggttttg aggacttcaa tatttaaaga gtaaagagca aacaggaagg gaagaagatg 111180 gggggaaaaa aggaagggat gggcagtaag gcaagtagtt atattcttgc aaggctttga 111240 atagtgctca gtgaatctat acctttcagg ggctggagaa aaagtcaagt atgcatttgt 111300 ttcactctca gtaaatctgc attttacatc agataaagtc agcatgtgaa attatggctg 111360 ttttagaaca acgggaggca gttttctttt ttttgtttgc ttgttctgtg tgtgtgtgtg 111420 tgtgtgtgtg tgagtgtgtg tctgtgtgtg tctgtgtgtg tatcactcag ttcccaagct 111480 ttactttccc tttggcatag tgagtttgga gttctgagat tcttttttct ttcataaagc 111540 agaccgatat aggtcaaacc tgcattgtgc aagggtcaac tgtaccttaa accatgtaat 111600 acagacaaaa ctgacaaaac cgttatgcag ttataaatgc aaatattaga aaaatctgaa 111660 tttccttggc tagttccccc cccatttttt tttttgagat ggagtctcgc tgtgttgctg 111720 aggctggagt gcagtggcgt gatctcggct cactgcaaac tctgcctccc gggttcacgc 111780 catactcctg gctcagcctc ctgggtagct gagactacag gtgcctgcca ccatgcccag 111840 ctaatttttt gtatttttag tagagatgag gtttcaccgt gttagccagg atggtctcga 111900 tctcctgacc ttgtgatcca cttgcctcag cctcccaaag tgctgggatt acaggcgtga 111960 gccaccgcac tcggccgcca gctttttctt aaacaaatgg tcagtttaag tgtttcaaat 112020 cccattaaaa atatcaaaac attcaatttt atcttctgaa aggattatgg taaatcctat 112080 ctctaaaaga acactggatt ggaagaaatg gtgggctctg atttgagctc tgacagtaac 112140 tagctttgta agcttagaca aatgatgtaa cacactctgg aataatagca tcctagtaac 112200 ttgggtctat gaaaacatct cagtaaaaga gtaatatctg atgttggcag tttcttttta 112260 cagtattgat caccttatga ctttctgtgt attctaagtc tagtttaatg ttcagtctct 112320 ccctcccacc cttatttctg cttggtttat ggttaaggac tgtgcatacc ttttgtttct 112380 taaaggcaaa acatgagaca taaaagcttt aacatgatat ttagtaattt ggtgcctaat 112440 ttgaaaatgt agctctgcat aatctgaagt atttttgttt gttacagaat tatgctatta 112500 cactaaaata tacaaaatgg gctgggcaca gtggctcaca tatataatcc cagcactttg 112560 ggaggccaag gagggtggat cactggaggt caggagttcg agacctgcct ggccaatgtg 112620 atgaaacgcc atctctacaa aaaggacaaa aattatccag acatggtggc aggcacctgt 112680 aatcccagct acttgggagg ctgaggcatg agaatcactt gaacctggga ggcagaggtt 112740 gcagtgagct gagattgcac tactgcactc catcccgggt gacagagtga gactctgtct 112800 caaaaaaaaa aaagactgtg tttattctaa actgatagaa acttagcatt aaatttgtta 112860 attcagcaga tacatctatc atcatctgtc atgtcaggcc cctatgctga gatctaagaa 112920 tacagactag cataagacag gctctgtttt ctacatttaa taggaggatt atgatggaca 112980 gagtggtaaa accatgaggg aagaactatc ataggtatct gggtgttggg agggcagagg 113040 atgttttcaa gaaacttcac acatataact gagcatgact aaggtgaaag gtacatgtgg 113100 agttgaggct aagaaggtag atagacatgc ctagcaagaa agatcttgta ttttaaaatc 113160 aagggtttgt acttgattct gcaagtgaag gtgagccatt gaagcatttt aaagtaggga 113220 aatgacgtga aaaatgtgtg tttttgaaag atcacagtgt tctcttgtag ctgcaataaa 113280 gcaatcttaa ttttgtcatt gtgatctgta gcacctgtat ggatacacca tcaaagattt 113340 cagtaggcca gatcagggat gatattaaca acttcagtaa tggttattca cctgcacagt 113400 gcactgttta atgtactggt ccacagttgc aatgcagtag ctgcctgttg tgagacgtaa 113460 accctgtttt aattctattc cattaccctt tatggaaaac tcaaagggca ttctttctcc 113520 taatttgtcc tggaagatag attatatcaa actgatactc taaaagctag aataaacatt 113580 tttctctctg tgagaaagtt ggctatatga tttttgatac tctttacaaa acattttact 113640 tttattttta gtaatggtac taatggttgg aaaataaaag tcgtgacttt ccgtttaata 113700 gaggtaattg tatttttcaa gcttacattt gtttcttgtg gatttggtag ttcttgtaag 113760 tgagcctatt atttcaacat aggcccaagt taggcaacat cgttctatta ttatatttcc 113820 agggcagaag ccaccttgtg ctgtttttat gtaaataaaa catacaccta gtgctttagt 113880 ttttaaaata ctttcacctg catcttctta accgcatctg gaaatcctgc gaggcagtta 113940 atatcctcat ttacaaagca ggtaacatgc attctgataa gtccactgac tggcccgaag 114000 gttgcctgcc actgcgtggt acaaccaaga ctgtatctac ttttatcatc aaactagatg 114060 ggcatacatg acaaagccac cctcacaaac agagcaatta aaaatatcaa actacaggac 114120 tggacataaa tgtcaagcta gtttcagccc aaacatatgg cttcgtaaaa ttcttctctc 114180 ttccttcctt tccaaccagc aacttcgttc aaaagtcagt gccacagcaa gcaagaaatt 114240 aaaaacttat taaaatagaa tggaatattg acccacagac aactgatcag gagttgtcat 114300 tcttgattta tcaatacagt gtgaataaag ttaaaaatat tgaaatgaaa gtattcccat 114360 gtcaactgaa ttccagcatc ctcatgctta tctgatattt gtcttatgcc cacagccaga 114420 tggtatatgg aagacatcac tatgcctccc caagcttcaa tgctaccatt tggtgttttc 114480 aaaataaaac tctttatttt cttttccttt tttctatcaa ggtaccccag ggatttcagt 114540 aattctctag cctaggggtc agcaaactat gacccaaggg caaaatttgg actgctatct 114600 ttttgttagg gcccttaagc taagaatagc ttgcagattt ttaagtcatt gagattttaa 114660 gacaaaaaaa tgaaagaaca atattttgtg acacacgaaa atgatattaa cttttaaatg 114720 tcaatgttca taaagttttt ttggaaaaca tccatgttga atcatttaca tattgtctgt 114780 ggctgcattt tgtgttatga cagacatgag ttgtttagac agataccgta tggtctgcaa 114840 agcctaaaat atttattatc tggctcatta taggaaaagt ttgctctagc ctatttggag 114900 tataaagaga ttaaggtatt cttcttgttt tccttggatg ggggttgagt ggagggcacc 114960 acatatatta gcttacatat gcttttccat ttagttgggt ggagagatct gcattttcca 115020 acatttggaa aaatccaact aagatgcagg tctgaagctg attaaaccgc tctacttcta 115080 ccgtaatata aaagggtgac aagttaccaa aaaaggaaaa gcacaagaag taaccaagat 115140 gagagttcta ataatggcag gaatttaaaa tctgatatga gatactaatt tggtttacaa 115200 tttttgaaac ttttcattac tatcacattc ctttgctatt ttattttgag gtagttgtcc 115260 ttctcccact gtttcacacc ttcaccatgg gaaaaaaatt ctctttaagc atttaacgtt 115320 cttagcaaat gtgttcattt taatttcatt tgttttgaga atgatttcaa atatgcatca 115380 cttgaatata tgagaaataa agccagtatt ttcagagttc ctcgttattt gaccacataa 115440 ttttacacaa gcctccacgt ttcttcatat tttttctatg tgggtgggca agatataaca 115500 tttaaacatt caaatatcac agtgaagcta ctagcagcat attgcaaaag tttgaatttg 115560 gagtttttaa aaagtgaact gttgtgacac ttcaagttaa atacttttcc ctgatacatt 115620 ttttgacagc atatatgtcc tcggcagtta aaataaaaga tactatggca tgtaagatag 115680 aactctatag ctatctgaaa aacagtatgt aaatttctag atagaaattt attctgccta 115740 attggaactt gaggatttaa atcacagcct acgtcaggat tttattgtat gatataggta 115800 agtcaggtat ttcccccttt ttatctgatg gttaagggag tagggcacaa agagaatgtg 115860 atttctacca tctgtcccca caccccaggt caaaattgcc tttagatctt ggtttcctaa 115920 ctcctggttc ctaatgttca aagcagatga ttttccatgt aggtacccaa caaatgattg 115980 tgatcagttt gttaagctgt gtgacctaaa caagggtgaa gccactaagt gtactctaga 116040 cagtgggtaa tgccctttat tgggtaatgc cctttgagta gtgcatatgt atatatttat 116100 ttattaaaac tacatatata cagtttatta aaattatatc tattttttcc atgtggagta 116160 tcctatttga gcttccttcc attcaccatc ttgggctgca atccttttgt cctagttgtt 116220 agattaaaat gtattttatt atttatattt aatagttgta tgtattttta ggagtacatg 116280 tgatattttg atatctgtat accatgtgaa atgaataaat cagagtaatt aggatatccg 116340 tcacctcaaa catttatttt ttttgtgttg ggaacattac aattcttcta ttttgaaata 116400 tataataaat gattactaac tatagttttt cctactgtac tattgaatac tagaacttat 116460 tccttccatc taactatatg attgtagccc ttcactaact tctcttcatc cccttccgtt 116520 ctcagtctct ggtaaccacc attctactct ctatctccat gagatctact tttttagctc 116580 ccacaggtga atgaaaatat ttgatatttg tctttctgtg cctggcttat ttcacttaac 116640 ataatgtccc ccagttccat ccatgcactg gaaatgacag gatttcattc tagttttata 116700 gctgaataac attctattgt gtgtatatac ataaaatatt ttctttatcc tttcatccat 116760 tggtgggcac tcaggttaat tccatatctt ggctattata aatagtgctg caataaacat 116820 gaaagtgaag atatctcttt gatatattga tttcccctct tttggatata tactcagcag 116880 tgggattgct ggatcacatt ggtagtaaat ttttatactt ataaaagctc acttttaata 116940 actaattaca cagcaggtac tgtgctgaga tctttgcact gattaagcct ctgaatcctc 117000 tcaaaaagcc tgtaagatag agactgataa tacctttaaa aaaatacatg aggacattaa 117060 gacaaagaga gcttcactga cttgaccaca gtcacacaat agtaagtggt ccaagattct 117120 aacctcagat ctgctaacca ctgtactatt tgagtggcca ctatattctc cacatagttc 117180 ttatttcctg ccccttgctc ttattctaag tgtcctgttc tgcatttgac atagttgaat 117240 tttatcctat accaactatc tgaactaatt aaggcaatct tgatttaaac tcattctact 117300 gggttataaa cagactttaa ccctgtatct tctgttaatt tagtaatgct ggttctctgt 117360 gtcatcattc aaagagttta attgtaaata taaaacattg agtcctgaaa cttctggatt 117420 catcttttat ttaggttgaa atataatgaa gttctaatga gctgtgtgtt acttgactgt 117480 attacaaaaa aatgtaattt tagcttttag gtataataat ttttatcaat acatagtcta 117540 gtggaattac tgtaatggta catattagaa atgcatgatt ttgataacat aaagcttaaa 117600 acttgggata tttataaccc cattgcaagt tttgagagga aatgttaaat agtacttgaa 117660 attgttagat aagcctaaaa ctaattttta aaaaccttat attaagttcc atagtctagt 117720 gctttccatg tgaaaatttg ctgaaagtct aattttgaat gttttgggaa caaactgtgc 117780 ctttaatttc tattcatatt ttagcacgca gtgggcagag aaatctctag aggtttctag 117840 aggttggctt gatgttcttt gatcctttca tctactatgt ggggactaaa taaatgccct 117900 gtttttgtca ttgactgcca cattctgaac agagatgcta gtttaaaata agagcagttg 117960 gagcaacaag caattggatt ttcatggtgt gctaaggcag tctgaagtcc acagccctga 118020 tgggcatgaa gaaataagag aacatagatt cccaggggtg tttgaggttc cttctacttt 118080 attgacttct tccctttctc caataattga ttgtaatata tataattaca ttttgacagc 118140 tagatttaac aaaggttgat gtttctctgc ttttaaggat ttacttttct catttatctg 118200 attgaccatg ctgagatatt caattaagag atgattcttg tcatcttaat ttagctggga 118260 agagaaacaa aaggaactct gtccatttgc caagtgccct gaaagcactg ttgagaccaa 118320 aggaagagag gatagttgca tgatctttgg cttctctcag ttttccatct tctcttccac 118380 ttggtttgtc acttttatgg attcattata actccactcc ccggattgtt gagcctacca 118440 atggttttcc tgacctctac tgtcttctgc tttcaggaag gttaactttc tgaaaacgtt 118500 cactctccag ctcgctgtgt ctttacgtca agcttagagt agtcatttat tccctaattg 118560 cctctctgta gagctttccc ctcagtggac tgaagatcct gaggtgtaag gaccttgttt 118620 tctcatctgt gcttctatgt acctgtcagg atggttggcc catagggact gttacctgtc 118680 tcaatgagga aacatggtga tgttatgctc atggccagaa tctacaggga ctactcactg 118740 ctagtcagac caaaccccta atcttgaact gagcttcatt tttattaata ctaattatta 118800 cttaaatact taaagccact caaagtatga ataatttata atccccaccc aaagcttcta 118860 aacccaagta accatcccat agcctaacct ccttttcctc caagccactc ctcactggac 118920 ccgtcacttg ccatatggat tttctctatt gcctcatgat gagggcagcc acccttgcca 118980 ggactctgct tcttcttgtc tccctaaaac ttgctcattt gaagttccaa cttatagcac 119040 acatcacccg ccttcctttg atagttacat tctccagtat aattgttttc aggtgtttaa 119100 ctgttggttc ttccatatga tttgcagttc tttacaacaa gtatggcttt ttaatattag 119160 aaatacagtg catgtgcaat cagtctctca ctaagcatgc aaatattaca gaaattgaat 119220 ttttgaatgg cattcatgtt catttactta gcaagcatta aaactccacc atgtttccaa 119280 tactgtgtta ggaatgggga attcacagat tggaaaaaaa aaaaacttga atggcaggac 119340 agaaattggt cccttttctg tctctaatgt acccaagaca tgcctctaat atctcctgtt 119400 acattgtgat gctctgttag tgccacgtgg acccctctgg cttagcacct ccaggatagg 119460 gaatgggttt aggttcttag ggtctggcat atactaggtt cctggagaat gttgagaatg 119520 aactgttgag ctggactaca gtgtgatttg aaaaatgtta tattagagcc cgtacggggt 119580 actgtaagag gataggagag agggtgctca gcctattttt ctgtttcttg gccaaggtta 119640 agcccttctt gccaaatgac agccccatca gactgtattt ggatgcagtt tcacttggac 119700 agtaatttta cttaaaccaa tattggcagt cctcattcgg tgggttacat ttttgaggag 119760 gcactgtaat ttagaagcat gtaagttggc tgaactaggg tcttttattt gaacgaggac 119820 ttaaaaccca tatttttata gaaaagtcct atgtttagta aattttaata tacctattat 119880 gtagcataca gttttctaag gtttaacaat ctattgtgtg atcctactgg tgttttaatg 119940 gtgactaact catttataag atttacatag aggttttcta aagtgtatgg aagaaactgt 120000 taacacagtg gctatttctg gggagtaggc ctaatgtgcc attcaggtga gaaaaaggat 120060 ttctattttt tcctgtaaaa cttctgtact gctttgagtt tttacttata atgagaatgt 120120 tttactttta tataaaaatg agttaataga gttgatatga atcccagtga agggtaaaat 120180 gcttaagtag tttttggaaa atggctacaa gctgggggag aaaatatagg actatgagac 120240 tgcacaggag ttccccccac cccctgcaaa gcagaagagt tacctcctgg agaaatggct 120300 gaacagagca gggggttgta gttggatctg gagctgctga ggaaaggtca tcaagggctg 120360 tgaagcacat caagtaggag acctcctgga ttaggtggct tgtggtgctg cttgctttca 120420 aaaatattgg gtttggccag gcatggtggc tcacacactt tgggaggctg aggcgggtgg 120480 atcacctgag gtcgggactt tgagaccagc ctgaccaaca tggtgaaacc ccgtctctac 120540 taaaaataca aaattagctg ggcatggtgg cgcatgatgc ctgtaatctc agctactggg 120600 acgctgaggc atgagaatca cttgaacccg ggaggcagag gtcgcagtga gccgagattg 120660 tgccattgca ctcctgcctg ggcaacaaga gcgaaattct gtctctaaat gaatgaatga 120720 atgaatgaac gaatgaatgc ataaaaaata ttgggtttgt aggtgtttgt gagcagatga 120780 gctctgtcag tgcaggctgc tgaatgcatg ggccacctgc actggtttta tgcagtggca 120840 aagagcaaat gaggccagga gggtcagcat agcttcaggt gctaggactt ggcactgatc 120900 aaagctttta aaacaatgct ttattacaca gacaatattt tatttagttt tttcccctta 120960 caatttgagt gaaggaaaag caacactatt gaacatgtga aaacaaagga tacggagatg 121020 gctaaatgaa ggtgtatgtt gaaggttata gcaggttcaa cattattaaa tcaggggtat 121080 aattcatgca ctcaaatatg aaaaagtttt agattggata gatgccttta ttcttgcctg 121140 ttaaaatcaa aagagcttaa ttttacaatg ttaatgaagt ggcacttttt tgagtaaact 121200 taagtaggtc acaaatacat attgtaataa ccttttctat gatactttaa ttacataaat 121260 gtaattataa aggatatgat tcagaaaaat aacatatttc aaaattctac tatcccctcc 121320 ccaaattaac ttccgtaagc tacttcatac ccatgaacac acgcacacat acgtagtttt 121380 attgtgtcat actatatata tcttgcagcc tgcctttttt tttttttttt tttttttttt 121440 tttttgagac aggtctcact tcattgccta agctagagtg cagtggtgca aacacagctc 121500 actgcagcct tgacttctgg gctcannnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 121560 nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnt aattcttaga 121620 gatggggttt taccatgttg cctaggctga acttgaactc ctgagctcaa gtgatgcatt 121680 gccttggcct cccaaagtgt tggaattaca gatgtgagct accatgccca gccaacttgt 121740 cttttttttt tttttaactt aacaatgggt ttttcaggtc attacttata cttcaccttg 121800 tacttttaaa tggttatagt tttctacaat ttgaacatat catatttata ttctacttaa 121860 atttgagaac aaataattaa gctttcatcc aacatgattt atacctgaag aagtcctcag 121920 ggactttaca gagcatgata ggtatttcag caattccata ttctatgaac tggtattggg 121980 agcatggaat gaaatgagga aagggagcta caagtaacaa taaagatcag caaagggcct 122040 ggtaaaatta attccaaatg cttattgcta taactttttg gccaaaaagc ttattggtgt 122100 ggctttattt taaagagaag tcagacctca tagatgatag ctgatttatg aagtgtaaag 122160 tcctcttttt ctctttaagt agaagagctt ttttttttca tcttcaccct ttagttctgt 122220 tttatccttt ggaatgctca ttactatttc ttggaaaata actacggcag gaagggctgc 122280 ttgtttttta aaaaaatata gcaagaaaac taacaatttg tggacataat ggtcatgtag 122340 tttgaccatg attaagaggt tattgaccag ctatggacca tggttttatt aaaatatagg 122400 ttacagcatg taagactaca aatgaacctt ttatggggtg ataaactgtt ctgtgcttac 122460 catttccctc cccaccaaag gagcagtagt gtagatttgt atgtggactt tgacccacac 122520 atatttggtg ttctgtttat aaatttggta acattttaga agttgcatta gctgcttcat 122580 agtggtcatt taatacaaag aagcctgttt agactcaaaa ttgaaaggca aagagttggc 122640 atttttaata ggtctagaca cagttatttc ttatgtgatc tattttaatg aaatgtattt 122700 ttagccttta aatttagcct ttaaatcact gaaatcttca gtgatttaac attttggcta 122760 catttttttt ttaccccttt atcgctttgc ttataggaac tatatgtctt aaagcttttc 122820 tgaatcctta aagcatgaag tatagttctg gagccttgta aaatgaatac atgtgatgtc 122880 acagagtttt catagcactt tacgtgctgt caattgcgtc ggttaaaact gttacaagta 122940 ataatgtacc acaatctgtt gaaaacttga ccttggaatt taccggtcct gcgaacttct 123000 ctcctttact ttccttgaag agtagttaag agtgtattta ttttcacctg tgcatgccaa 123060 ggatttctgg cccagatgtt ctggcctacc agggaatgtg atctagaata caagcttata 123120 aattattgct tctttttata ccttattgta atgtatgtgg tttagtggaa aaatacatgt 123180 ttctaattca ctgtggcttc tatctgcaga ctacctatta tgagcctatc aatttacata 123240 tattattaca aaaccttaca atagttttgt aaggtcagtg atgcccctgt ttaatacagg 123300 aggcaataga ggctcagaga ggcatatagt tgtctaaagt tacagagctg gtaagggcag 123360 agcttggtat tcacacccag atgtaacaga cctgaaagca catctgtttc acaaactcct 123420 agtggactgc agtgagcgag ttatagagag aaagagaatg gatttaaaag gcagatggtt 123480 ttggtggctt tcagaaccaa ttcagctgtt actctgttag tcccaggttt cttatttgca 123540 aaatggagtt tctactgccc agctgtagga ttattgtgaa gattcagtgg aaatatatgt 123600 aaagcctttg atacattgta ggttttcaac aaaatgacct aaacttccac ccccatgccc 123660 cacccaggtc accctctgat gaatgtaggt gctagcattg accagtgccc tgtaaaatag 123720 accatgcatt ttaaaacatt ttaaaaatta aaattcttaa ctcatttact atacacaaac 123780 acttattaca gtgttcccat tgtaggcctt ttgagggcag gacagatttc aatactggca 123840 gcaagtaatt tgtagaggga gtgttttctt tgtcttttga attttttgtt ttaatcccat 123900 ctggagatta ccaacatgtc caaaagttct catggtgcct gggaccctgg gctggcattc 123960 tctcttggat tcttgatgta gtaagctgtt gaaagagaca gggatgactt agaatgagat 124020 ggcgctagga aacaaatgag ttaaacaata tttctctgat gatgagaatt tcaaatgggc 124080 taacttgtga gtttacaaaa attttatttg taaaacaagt aaatttcttt gactgaaatt 124140 ttcttttttc tctttaaaat tgtttttagg atgcagaata gaaaactgtg attcttgctt 124200 tagcaaagac ttttgtacca agtgcaaagt aggcttttat ttgcatagag gccgttgctt 124260 tgatgaatgt ccagatggtt ttgcaccatt agaagaaacc atggaatgtg tgggtgagta 124320 gtttttaatg taactctcaa tctgcaactt ttattttagc acttgtttct taaaaatatg 124380 catgctggat atatttaaac taagaaacaa attggttctc ttgttcagta gaactgaaaa 124440 ttaagttctt tgctgatttt aagcatcatg acaattggat agtctcatat cttgctgtaa 124500 aatttgctag ttgtgcattt gctaggttaa tctacttaag tgctaacaag gttttttttt 124560 aatcatccgt gtaatacatc aatttcttaa tagattatta gtaactgtta gagaaaaaca 124620 ttttgttcag aagagaagtt ttaagcacta ccacatcagc tagctactct attgctcctg 124680 ctatgtgtgg atattacaga actgcttgct tagctgtttg tttaaaaaaa aaaacttgaa 124740 aagaaattct ttgtgccata ttttgttgat tatatgttac aaatgcatta aaacaattac 124800 taaatttata tacctggaat gcataatttg atatatatac tatttgtgaa aatagtaaca 124860 cattttataa attttatatc ttctgagtgt tggtaaaata ccttggcatt cttataccac 124920 catttgaaag gtaaagatct gtcagtggct acattatgat gaatctctta atctaatcat 124980 ggatgtattg tcatgccccc tccccagaat ttcatttgat gttatatatc tgatatgata 125040 tacaacacag ctatgtatta gactttactt cccttaaaat ggagacttag aagaaaagtt 125100 gacatttttc tatgaaaata ttgctgaagt agtctgtaat tgtgtatttg agagcttgcg 125160 aagaagacat ttaaacaagt ggtttttgaa gaaatatgtg catttatgtt tctacttatg 125220 tgtgagttaa tacattttat aggcaccact attaaaataa gaaagtcact agaagaacat 125280 attcagaatg ttgaatttgc ttttgagagg caggacacac acattacaca tgtttagtgg 125340 aaacgctgaa atccttaact ataagcatat tataaataga gtcttatgca ttccctgaat 125400 aaaaaatctt aaatgtcttt gaaaagtcta agaagcagct gtgataccca ctgatgtcta 125460 gaagatggaa atattaattg tatgcagact ctggacctga gccctcatcc actagcatga 125520 agaggagttt taacggtgaa gttgatgagg aggtttagct ttgtataccc ttatcctttt 125580 acttcctcct ctccctcccc tgggagttgg ggggtagcct attttccact atgtggactt 125640 aacataggag atgctaaagt ttttacgtat gtagtaaaaa catacatttt caaatgactg 125700 atcacatttg tttacttttc aaactgtagt aatgtacaac gccaatgtgg ggaataagaa 125760 ctgtggtctc cagaaacctg ttgaaagaac agaaaaaatc agaaaatgca aagcaagctc 125820 cccatctttt tcaccaagtg cttcccaact aaaacacatt tgtgggtttg gtggaggcaa 125880 atttagaact agcctgtaaa attttgtctt ctgtcatgac aggaaatagt gtcttctact 125940 ttaggtttta gctgttgact cttttaaaaa ttacacattt tagtgtcatt agaactattc 126000 ataatagcaa agacatgggg atcaatctaa atgttcatca ctgatagact gcataaagaa 126060 aatgtggtac atatatacca tcaaatccta tgcagccata aaaaagaacg agatcaagtc 126120 ccctgcaggg acatggatgg aactggaagc cattatgctc agcaaactag tgcaggaaca 126180 gaaagccaaa caccgcacat tctcacttat aagtgggagc tgaatgatgg gaacacatgg 126240 gcacatggcg ggaaacaaca cacactaggt cctgtaagaa tgggggcgat gcggggaggg 126300 agagcatcag gaagaataga taatggatgc tgggcttaat acctgggtga tgggttgatc 126360 tgtgcagcaa accaccatgg cacatgttta cctatgtaac aaacctgcac atcctgcaca 126420 tgtattcctg aacttaaaag ttgaaggaaa aaacagaact gaccaatagc atccttcaaa 126480 aactgaacta agacaaatgg aaagtaacag cttttttttg atagaaatat cttatggttc 126540 aaaaaattaa agttcccaaa aggtgagtat aggtcttcaa ggctgtacca cttaattttt 126600 ggtatctgaa ggtggggtta gtgaaggaac actgctctgt aaatttgatg acagtgaagc 126660 aaatggatac taacttatgt gcttgtgttt ttttttcttt ttctaaaaat ctttactaga 126720 aggatgtgaa gttggtcatt ggagcgaatg gggaacttgt agcagaaata atcgcacatg 126780 tggatttaaa tggggtctgg aaaccagaac acggcaaatt gttaaaaagc cagtgaaaga 126840 cacaatactg tgtccaacca ttgctgaatc caggagatgc aagatgacaa tgaggcattg 126900 tccaggaggt aggtgtggat ataatcacta ctgtgtgctg tgtgcttcct gaattctccc 126960 gcttcctaac caccttccct tccaaaaata agtatttatc tttgaaggaa acccaataat 127020 attggtgagg ggataaagtt ttgttgtact tatttaaaaa caaatgcttc agttgtgaaa 127080 aatatgaagt gcatatttta ttactttcat aatatcttaa acataactta ggagagtacc 127140 ttagtaatga gctttctaaa atgagatttc taaatgtgtt ttggtggctt tttctgcaaa 127200 tgtaccataa aagcgggttc ttacgaaatc aggccttcgc agatgttgct ctgagggaag 127260 cggccaactt tcagttgaga agagtttaga ttagaaaggt ttatggagtc tgtaaaatca 127320 tctgtatcat tactagttga agatgacaac ttaaaataaa cttgcccaaa cactgggagg 127380 aataaacatt gtcttaatgt taccacaatt agccgtttct ctttgttttg ataataattt 127440 gtagaaaaca gctactggta tgtgtgtgtt tattcaaatc tttgtagtaa ttgtgctgat 127500 ttgcagtaat tattctgtaa taacaggatt aggcccattt agaaattgga agagcacata 127560 gctgaggtga ctggccgatg cagaatcagt aagttgaaat gtgggtctga gccctgtcac 127620 tgtgctgtcc ctaaagcagt aatcactggg ttacatttat tttatcacta gcggatgcta 127680 caatgtcatt cgctcaaaat agaagagcaa aaaagaaagt tgtgtttgga aaactgctct 127740 gtaaaagaat cataactttt gtttgccttc attctttctg tgggtgcata gcttttcagc 127800 tttatgacca tagcccagaa agagaatata taactgctta aaacaggttt atatccgtgt 127860 tatgctgcct catagagaat gtctatgatc catggagaaa gacaatactt ttaagactcg 127920 aagactccag tcggcctttg agaactatta gatccagatt cagaagctac tattaggaaa 127980 gcagcttttc ctcttgaatt agttttgctt ttccttactg gatctttgaa acaaagtttt 128040 tttaggtctg cttttcacta acaaggatgg ttttgttcac ttaaactagg tatttttcag 128100 tcaaaatata agaaaatgtt ttcttacaaa actaataagc cacttcttgg atagctgaga 128160 gcatttaacc tgcaaccttc tccctaaaaa caaacttgat gtattcaggt attggaaata 128220 aagactttct ttgttgtata ttgtttacat aactagcccc tcccccattc ctcttccagc 128280 aatgtggtcc cccaattgtg gtttacatta atagaaaaaa ttaaactgaa aatgctccta 128340 taacaaacat gctcatgtgt aacaagaggc aacacatttc cctcccctcc aaaactcttt 128400 attttgacct agccacagtc tggcttgaga attttctaga ttacagctag attgttaacc 128460 ataatattta ttgcatttgt atttttatgt tatcaacaac aacatactgt cttagttgaa 128520 tacaacttga tactgtcagc aatttaagtt acgccaaaac aaatgcttat gtatcatctg 128580 ctaatattct ctttttgaca agccagtaac agactgattt aattcttact gaagttttac 128640 caagttttac ttattaggaa agactagcta tagctctaat tcttgtgtct acattttcag 128700 tttaataaaa tcaattttat ataaccttta aataggtttt caaagttata tcatttttta 128760 ctattttatt gaaaggaaac taaatataat tgttgagaga aatggcaaat tattctgtaa 128820 taaggttact tatatttaaa aatgtaggaa atgaaaacta caaaattagc tttgtaactt 128880 gagcaccgat tgataaaaat tggcgtaact tccaggggag tatcctacct tgcctcaggt 128940 gagagagaga aaagttcctt tcttcaatag gtcatggcga ctagtggaag aatggagaag 129000 aaagccactt tatccctttt tacatcttga tttgatttca gtgatctgct ttgacaaacc 129060 atgcaaaaat gtaagtcgta atcaggttgg gaatacaggc atttttaaga tctttgcaac 129120 atatgtatgg atttttctcc tgttgaagcc aatcttaacc tgattgcaca caaacgcagc 129180 cttaagctcc ttcacactaa agcagcagca cattaaaatc agctgcttct gattactgaa 129240 aggcataagt tagaggtcag tgtaatgcta tagtcatcac tatgcatata agatattaca 129300 ttgaaaacta ttaaatatga aaacataaat ggctttaaga gttttttttt aaaaaacagt 129360 gtaatgctta gcctagtttt tccttaactg ttatatgctt atttgctttc ttttttaaaa 129420 aaaaatcaaa taatatctgg aaatatcttt agtagatcaa tttacacttg aaatactcag 129480 tcttcattcc caaacttttc ctttagatca gttgtcttgt tttttcattt ttgatagcat 129540 aacctgtaag gtttcttggg cttttccaac aatcattctt cagggtcctg gtctggagtt 129600 atctgggtcc ctacatcgtg tcaacttgtt aattcagtga gccctgacaa gtcacttaac 129660 ctctcttggc ctccatttcc tcatgtgtaa aattgaggat ttaggggggg ataggtgatc 129720 tctgaggtcc tgttctgttc taaaatctga tgattctagg attaattgcc aaaagttgca 129780 ggcaagttct gtggctgtca tatgaaggtg aggaagagac ttggaaggcc aggagtgtag 129840 tttcacaatg aaggatctga acactttccc agtagctgcc ccctgcattt gccaagcctt 129900 ccacatccag cagctttcag cttcctactt cagggaggac tctgcttggt ccttcaaaga 129960 ctaaccaaga ttctttttaa atctgtacat gacctgtgac ttagctacca atatagcaga 130020 ctgatttatg gcgaatgaca gaagagaaaa gggtgcataa aagaccatgg aaaaaagaga 130080 ggccaggcgc aatggctcac gcctgtaatc ccagcatttt gggaggccaa gacaggcaga 130140 tcaagaggtc aataaatcga gaccatcctg gccaacatgg tgaaaccccg cctctactaa 130200 aaatacaaaa attagctggg catggtggtg ggtgcctgta gtcccagcta ctcaggaggc 130260 tgaggcagga gagtggcttg aaccccggag gtggaagttg cattgagcca agatcgtgcc 130320 actgcactcc agcctggtga cagagcagga ctccgtctca aaataaataa ataaataaat 130380 aaaataaata aataaataaa agatggacaa tgaaaggaaa aaatattgaa cactgagtat 130440 aggaaacaag tggaaaaaaa gagtgaatga cttgaaaatg aaagctgtac ccatggcaga 130500 tataactgtc tccactccct ttgccctctc cctgagtata ctaattaaga aaatcatgtt 130560 gggaccaatt tatgaatata taacctgaag ctttaagtgg aaagaatttc aagtctgggc 130620 catgttgtac attagggaat atcttaatac aaaagtataa acatgctttt tgtcatatat 130680 ttaaatgaca catggaagaa caaatttgtg attgctaagg tattatgttg gaggatgttc 130740 atgtacaaga caaaatgtca tctgtaggtg gctgtggtct tctattcttt cacaggagga 130800 ttgaccaaca tcatgatctc aatctgaaat attctgtcct atctgtgtgg gactccctgc 130860 tttctttgtc aagccccatc acaactcatt ttgttaattt atttcatcag atacttgttg 130920 agcactgcta tgtgccaatc ataagtctag gcatgggatt gctcaaagag tccttagaga 130980 gctttttcta gcaggaatag ctgcaataaa gaagtgggtg atggtacata atctcatgtg 131040 aagacaaggg ctgtggagac aagtaggaca gggagctagt gaatgggtca gggtatacta 131100 tgttatgtag agtgatcagg aaaattgagg aagttacatt tgatcagaga tctaaatgag 131160 ggatatactt tgaagcttta agggaaattt tttttggagc atccttgatt ctcctgccat 131220 attttaggga agaggaaaga actgagctcc atggaggctc tgactggtcc aaagtgatac 131280 ctaacaagtt actagtggta gaaccgagag taggaccatc atcctgctgc ttaggaaacc 131340 tgttttcctg tgctttttcc ttggtcttta tgataaagac caaagataaa gccatggttg 131400 tccaacatta aacttcccaa cttttaacca tttctccctc tatgcagaaa tatcatttta 131460 cttttgctct acaaatgctt ttaaacaacc ctgccatcgc catcccttcc aatttggaat 131520 cactggtgaa acatatccca atggtcattg cataagggcc aaagtgttga gccactggcc 131580 ttgttttgat tcagctttcc ctgtgaaggc cctactctcc tttagagtca ttggtccttg 131640 gttggtagtg gggggaaatg tggcttcaag attgtagttg ccatccctaa tctttcaaag 131700 ccagccctct agaggagact gccttgtgtg gagccacatc caacattcat ctttgaccat 131760 tgctccttgg cctacacaga agccctgggt aacctgatcc ccatctccac atcagaaggc 131820 tctgtgcctg gcatgttttt ttccttctga cacatttcaa ctatcggact cttaaagtaa 131880 ttaaggtgat gctttgtcat atactgggat agctttctgc ctcttttgct cacagctgcc 131940 tcaactcacg atagtgcagt ttttagtaac cacacagcaa ttctttaaac tccagtcaca 132000 ttttcttagt actgtgctaa atttaagtat gaaatctgct actgtatact attttaattt 132060 tagggtattc tttctttctt caaaagtggt tcttggtagg aaacaaaaga aagtattagc 132120 tacttagaac cttgatctct gcaaaaatct acttttaaaa aggtagtagt agtaagactt 132180 ctccaaacct atgttttttc gtgtgtgtat aaactgacag caacatgtgg actacgtatt 132240 aggtaatatg actaaagatg gttgtagatt gtgatagatt aaccccagag caggaaataa 132300 gcatattttt caatgggaca gggtcaagaa aatatgcgat ggacatatgt tctttatttc 132360 tctacatttt gtttacattt gagtcacaat ttatgtggtc tgctttatac atgtcaccct 132420 aaagagtagt ttggaagaga ggagataaga gagaacctct tttcttttag agtttgtcaa 132480 gaatgtcgat attaaaattt ttatgtgaag aagagagcat ctaaaaggaa attcttattg 132540 tctttctgtt tgctatgata aaagtgttat aatgtctgtc tgagaaatca atgatttgtg 132600 ttagtcattt taaattaagc aagttatact attttccagg tactccggct acatggaagc 132660 taatcataat atgtgtgtgt gtgtgtgtgt gtgtgtgtgt gtgtgtttta agtgattata 132720 aactggaagg gtaacccata agtagccact ttgaaaatgt tagtgtataa ttattaagtt 132780 ggtgttaaac aaagatccac ttgcctccaa acattccttt aaggagctaa agtgtctgaa 132840 attcctgcgt caggggtctg aacagaatgg ggagaggaat ccccttcctc tccccagccc 132900 accctcactt tttaaaatat ttttacttgt ttcctgaaag tcggtagagg ataaccactg 132960 gcacctggtg atggtggtgg tagtttttct tttcaaggaa cgatttcttt cagactgact 133020 aattttcaca tattggaggg taagggtctg aggaacacga ggggggcaga aaaggggtct 133080 ccaaattaga ttcggttttg ggcatagaca tggacataga cataaatata aaaggggtgc 133140 aaaacactca gaacgtggag gatgaggggg tggacatgag acaacttctt ttctcggttt 133200 cattttgaga caatccgaat gccagccttg cttgccttgg gggccgggag tgagtgaact 133260 ctagtggagg aagacacacc tttgtgctgt tctctacagc ttcccatctg gaatctctgc 133320 cagccccatt tcaatgtagt ctggggcagc acgtactagt ctcttttatg ggtacttgta 133380 aaaagaattt ctcaactaca tatgccactg aagacccaaa gttctatgca gtaagctact 133440 cttatggtaa tataaaatat ataaaacatt ttttatgaca ctccaaaata aaaacaactt 133500 taataggaca cacatggtgt cagtggtaga tatttttccc cctccgtgca ggagactcgt 133560 ttttcccttt tataagatag gaatgtctta agtataaatg tcctaatcat tttttagaac 133620 aacttattct cagttgggcc tggtggctca cacctgtaat cccagcatta cgggagcaca 133680 aggcaggaag atcctgaggt caaaagtttg agaccagcct ggccaacatg tggtgaaact 133740 ctgtactaaa aatacaaaaa ttatctgggt gtggtggtac atgcctgtga tcccagctac 133800 ttgggaggct gaggcagaag aatctcttga acccaggagg tggagctgaa atcgtgccac 133860 tgcactcagc ctgggggaca gagcaagact ccttctcaaa aacaacaaca acaacaacaa 133920 caacaacaac aaaaaacaaa aaacttattc tccctatcgc ctcatcacat acttctctgg 133980 gatctttaaa tggtgttgat aaaaagagca gtcaatttgc tcatctagat ttcctgtaat 134040 acttctctag ctactagatt aacctagagc tgtatgtgta gatatccttc actatcagaa 134100 gacaaacatt ttagtgaaaa gaaaaacaga attttactaa aatctcagca tgattcatgt 134160 catcatacag aagtagttaa gatgataaaa ttactttgtg taacagaggt gtcaaatttt 134220 tttttttttt ttttaccatt aattaaccta aaaatgtaaa ggcagtagtt tttgctttac 134280 aactgacctg ttgatatgat actcagacct aatgttactt tgtgttaata ctatcatctt 134340 gtgtttgagg actttggaaa ctaggagcaa aatagttgag cttgtcaaga gacgtttaat 134400 aactgatgct gtgtccatat atcctgccca ttactcaaag gatttagtaa gaacttaatg 134460 tacaaagaca taagataaca tggtaaaaaa aaaacacccc aaaatgtaac ctattaaaac 134520 taggaataat ttaaattaga ataagagctc aggcccgaat aaaagaaaaa ataagctatt 134580 tagatctgtg ttggttgaag taattgagcc aaaaatttga ctttaggttt gctaccaggc 134640 aaagggaaaa agtagacatg gttctaggtt gatttaaaat aagtgcttga ttttaaaata 134700 tcaatttaat agcagctttt agaggggaaa atcacatatg tatgtatctg tttatacaca 134760 ataaacacac atgtatggta catgtacaca catgcacata tatacaaata cttattccaa 134820 tttcagacac attaaagtgt gcatgtgttc agggaggtag taggacttat ggaattgagg 134880 aaattctcac agaaaaaagc tcagtaggga ggcaaaagct aaacacattt ctgcagtatt 134940 agacttctca agtggggaat cacatggtgg acgatgtcgt cacaccaccc atgtcacata 135000 catgcttcca aaaggtagaa agcagcttgg cgtttatcct tggatgaagg ctgaaggtgt 135060 gactatgaac ttgactcaat agtggcatga gtaatactga ttcaggactt taaaaaaatc 135120 atataaattt aaagggtaca agtgcaggtt ggttggtgta ttgcataatg gtgaaggtta 135180 ggcttttagt gtaaccatcg cccaaataat gtacattgta ttcattaagt aatttcctat 135240 tccttagcct cctctcaact tcccaaattc tgagtctcca gtttctatta ttccatactc 135300 taagtccatg tctacctctt atttctctcc tacttacaag tgagaacata agagttttct 135360 gtttctgaga tatttcactt aggataatgg cctccagttc catggaatca aaatgttttg 135420 acttatcagt tgttttttgc tgtaatcacc cagtaggcta ttttggtgaa tattgaatgc 135480 ctttggaact tcatggtatc tagtgaatgc aggaaatatg tagatctacg tttatagcag 135540 tacaattcga aattgtaaaa atatggaacc aacctagata cccatcaaag agtggataaa 135600 gaaaatgtgg atatacacca tggaatacca ctccgccaca aaaaaggaat gaaataatgg 135660 catttgcagc aacctgggtg gagttagaga ccattattcc aagtgaagta actcagaaac 135720 aaaaaaccag atattgtgtg ttctcactta taagtaggag ctaagctctg gggacacaaa 135780 ggcatacaaa tgaaataatg aactttgggg accttggggg gaagggggtg agggataaaa 135840 gactacacat tgagtacagt gtacacttct tgggtgacag gtgccccaaa atctcataaa 135900 tcaccactaa ataacttatt tcatgtaacc aaaaaccacc tgttccccaa aaactattag 135960 ggggaaaaac ctccccaggt gtttctaata tgcaataaaa tttgaaccaa aaaaaaaaaa 136020 aaaggtgcag acctattata ttgcaggggg cagttactct tcaaacttgt caataaatat 136080 gtattttcta aatagatttt tatttttatt tatttattta tttatttttt ttttgagatg 136140 gagtcttgct ctgttgccca ggctagagca cagtggtgtg atattggctc actgcaagct 136200 ctgcctccca ggttcatgcc attctcctgc ctcagcctcc tgagtagctg ggaccacagg 136260 cacccgccac cacgcccagc taattttttt gtattttcag tagagatagg gtttcaccgt 136320 gttagccagg atggtcttga tctcctgacc ttgtgatctg cctgcctcgg ccttaagata 136380 ttcttaaata aggtcaggag ttgcatattt aggtgcagag ttatttctgg tgattatctc 136440 aaggcctgca ctcatatttt tagataacct tttgcaattt tttgttgttt cctctccaag 136500 gctggccttt gattatctta atctgtgtca aagctatttg ttatgagaga accaaggaga 136560 ttttgagtaa atgtttaccg aattgcattg acttttaaaa aatatgttac aggatgcctt 136620 ccaatttctc tttcaaccta cttccccaag ataatccagt gttggagctg ggatttaagc 136680 aatctgtcat ttttctattg ccgtgtcttt aggtccattg aatcaattaa gcatccatta 136740 cttcctatgt tctaaagaaa tgggaagatt gggaggagag agtgatacaa acaagagagt 136800 ttatagccag gttacggaat aagaaaatgc acattaaaga taaaaggcaa agcttaattt 136860 ttaaattatt gagtgtcagg taaagatgac attgttacag gctctgatac tatagaacaa 136920 aaggtattgt ttttagctgc cattgccagg gaataggaat agttcctgaa gaggataact 136980 tatattagga ggagtgggta gaaaccatgt ttaaaaaggg agatcatttt agacagaaca 137040 ctgtgaggaa agatacacca gaatgtgcct catgcaccca agggaggtga agcaaatgaa 137100 cctggccgaa acgcagaatt tgtgaatggc agtcacagaa gctcacagaa aaaaatataa 137160 gttgcagcct gactgaagtg tgtccatgga gaagacaagg agtttgaatt ttaccttgtg 137220 tactgtggag agctatgaga catttgagtg tgaaggtgtt tcagtagaaa gctgactgaa 137280 gatggaagtg actgaaatgg tgttgctaaa gtgttaggaa gaggatcaac tgtacatccc 137340 tgatttaggg cagagcatta aacagagtct gagtctgatg agagaattag cagagaatac 137400 ttacgggttc tgatgtttac gtgttttcct gttgtttgct tttctaaaga gtggaggatt 137460 ttgccttggc ttgtggtcca ctgtggcccc tgtatactcc tttttgccaa ctttctaagc 137520 caggccattc tctagtttgt atttgtacag ttttttcttt ttcttttttt gaaatctagg 137580 cacaatttgc tttcacccta agtgaactat atttgtttct aactactact ttcatctgcc 137640 atttaccaag atccttggat gtagtatttc ctattttcta gcttgccatg ttaaccttat 137700 aatgagtttc ctgtactagc cagcttggag tactctgaaa atttaatgta cacaaatcaa 137760 atattcaggt caaggatgaa aatgttccta caaagttcaa tttcaattgt ataatctaac 137820 atggttttat ctaacatgcc gctgactagc aaaagcagtg tcctggaaca ttgggttgaa 137880 aaggattctg agttaaatgc tgtgttcagg agaaaaccat gtagctaatc agtttgcagt 137940 ttgtggcatg aagtgagaag caatgtattt tgtattcatt cctctgaatt ctaatccctt 138000 gaccggttct gcttacagct cttcctgctg ccttctctcc aaccttacct acagcacaca 138060 cttggacatc tttgacaaat aatcatctag cttttatttt ttaccttcag tgatggtgga 138120 tgtctttgta tgttggaaaa aacagaatcg ggaaatttaa atggggtttt aaatttggta 138180 tatggccggt cttgactact tacgggttga atgacaagtt attttatttc ccaaagctta 138240 gtcatgtatg acatgtaatc tcaataagat tgttgagagt agtaaaggga catgcataca 138300 aacaggtgag ttgttactat tctgttacat tttgttgtaa tcctgttgtt aattatacaa 138360 tatttttcac atttttcatc tttcttatag ctggcctgtt tttgcctctt cattctcctt 138420 taatttcggc ctaccttgtg gcttcaacta tgattcagac atgcaccttc cttctgtgcc 138480 ccagtcccac aggtttgtcc gttcgtgggc acctctccct aggtgtcctg ccagcatgtg 138540 caactaagca cagctaaact gtaactgtct ttgcaaaacc tcatttctcc tgggacagcc 138600 cccctttcca aaggcatcac tagtcttcta gttactcagg cttgcagtcc tatctttgaa 138660 tcttttcctc acattcagac agattggaag tcgaagattt gcccaaccac ctaaaagtgt 138720 atgaaccaga caagtttact taatctctct aaactgcagt gtcagcatct atgttacggg 138780 gtataacagt atgcttgctt cacagggctg ttatgaggat taaaggacat cattcatact 138840 ttgcctagca cagagtgaag gatcacaaag tgtgagttct ttaaataatg acccacccag 138900 tcttacatct cagtgctcca cacatcttca tttttattgt ctctactcaa agacttttaa 138960 ttctctttac ctagaatgtt gctataactt ttgttaggca gagggagcaa atattcattt 139020 gcatttcagc aaacagatgt gtcaacatat acaaaggtga actcgtttca cctcatcgac 139080 agtgtaatct aggtggtaaa attgaaacat taaattttaa aaatggcagg aagaggcact 139140 gagcctcctg attagcatag ggcttagaac agaggaagcc tcaaatgttg aaaggaatga 139200 gggttgcagg atgaacaggg caggctaatg gtggctgagg agatgagact tcagaatata 139260 gacctggagt atgggacaat tgaataaatg aaaaggaggg tgaagggaaa agataaactg 139320 agctaaaata tgaacattgg gatgtataca gcctaacatt tactaaaata tagagaacct 139380 gttgaaacaa tgcatgtgtt acgtagcaaa agaataaaaa ttggggcata caatagaaat 139440 aaggaaaaag aagccgagca cggtggctca tgcctgtaat cccagcactt tgggaggccg 139500 aggcaggcag atcacaaagt caggagatct agaccatcct ggctaacatg gtgaaacccc 139560 gtctctacta aaaatacaaa aaattagccc ggcgtggtgg cagatgcctg tagtctcagc 139620 tactcgggag gctgaggcag gaggatagca tgaacccggg aggcggagct tgtagtgagc 139680 cgagatcgcg ccactgcact ccagcctggg tgacagagtg agactctgtc tcaaaaaaaa 139740 aaaaaaaaaa aaaaaaaggt aaaagaatga actcaggaga taaatcaaaa tctgtaagaa 139800 ttggttacca aattgaatct catagattgg ccattccaga agaatttgag gtttacagaa 139860 ttcacacagg gaagaaaaag tcattgccca tttgtgatga ttcatttaca aagatatttt 139920 tcctttggaa atttaattcc ttaaaccatt atatattagt aattcaatct taaagacagc 139980 atggggcttg tagaagagaa ggaaactcta ggcctagagt ttatcactag tttatctagt 140040 gataaaacta gattttctca gggtttggag agaggcctgg caggtagata tctggactct 140100 catccttggt taaataaggt agttctgttt ttttgttttt ctctttgaca tttcagggat 140160 tttgtatgca tgagtaaaaa gagcatgtct tcctataaaa acagaacttc aagatgcact 140220 catttgcatc ccttccttta cagactggaa actaaagtgc tgagaggtga aagagtgaat 140280 tccccatgat gatgatggta gatgataaag caaagcttaa ttcttgcttt gatgttaaac 140340 ctagagcact ttctcccata tggcttcttt gtctttcaac ccataataat ccctgagaat 140400 tgctcagatg taatgcaatt aagatttttt ttgtgttatg gtatagaaga actgtggtga 140460 ttaagctatt atttttgcag tgtttcctct caaaagacca gtatgaaact tggcatggac 140520 tgaattcagt aacatgtctc ctatttttgg tggactctgc aagattctat gatataccaa 140580 taaaaagtta tctttaagtg gcttacaatc tttcatttgg atatacaaat tatatatact 140640 taaatatagt ataaggtgga taagcacatg atatgtacct cagcaaaact tattttatct 140700 tgaattgccc ctataacatt ttattcagca gttattatct ttccttagtc ctacgagaaa 140760 attttcacag attttctgct cactttttgg tgatacaatc ctattagtca ttaatgcaat 140820 cttaatttag ttattagaat gtctattcca agataataaa ccagagactt gaattataag 140880 tttgattatt accataaact tagaaaatat acaaaagact ttggcttatt tgaagagtct 140940 attttgcaaa atactgagtg cttatacctc tttcttgaaa actctaaaag aaatgaacct 141000 ctaaataaat ggtaaaagga attgagtact aatccaggta agatgtgtat tgtgtaagct 141060 cccgtccccc tctccctctg ttcttctttt catcttacgt caaaacctgt ggaagaaaac 141120 cacatgcctg tgtcttgcat ctgtgcacag attccttgta gtattcttgt cttttacatg 141180 gtgagagtga tattgctaac ttgagtaatt taaagtaatt ttggcctcaa atgtcaagtg 141240 tctgttgcat ttcagatctt cctctatttg gtataattgt caactctaag tgtgcagatt 141300 gacttaatat agtcatcaaa tatgctttga attaagagtt atttgggttg cttctgcagc 141360 tgtgtttgaa gcagtgtact ctgtgttgcc attaccagtt tgcttctact ttatcagaaa 141420 cataagacct ggatatccca agaaccgcta cgtgaaattt ctccaccagg cgatggcacg 141480 tgagcatgtc tagttgcaaa actataacat cagtagtagc ctaatttgaa ccgttccttt 141540 tataatacct tgcatttatt aagaacttgc tcaaaggagt tcaagcaagg gcggtgacct 141600 cttaaacacc catatttcaa agtttttttt aaccatacag ttctcaaaat gctgatattt 141660 tatgtaactt tcagtactta gtaacattat tccacaatca gtattatgca atgaacacat 141720 aaagattgaa aattcaaaaa tatgtgatca cttattgtgt gtgtgtctgt gtgtgcgcgc 141780 gcacgcacgc atgtgtgcat ggtgtgggga ggagagggaa taagtatttt cagcactgca 141840 tttaaggaaa tgttcaatgt tgggctcggc attttgtttg acagttgtca cattgttttc 141900 attgtctctc cacttttgtt tatttccctg ctgcttaagc agcctgatga aatctcatca 141960 gctaactggg actgaatttt gatgagtgtc aagttgcttt gatgaaatct actgtaatca 142020 tcttaagccc aactttattt ggctttaatg ctggcatttt ccatattgag aaaattagtg 142080 catttgtccg ctactggagt tggaagccca gtaagaaaca aagatagtca aataaaaaca 142140 gcaactataa tttaagttca ttttatacct ttgaatgcat ggacaagcta gctatgaaac 142200 aacctttttt ttatgtttta gcatctgttc cttttaacaa caataacaat aaaatcagga 142260 ttagttatta gccaaaagta tttttaccca tgaacaacta gaaaaagcaa atgtgtagtt 142320 cctattgacc agaaaaaaag ctttgctgtc ctgttatctg gattttccta agaggggcaa 142380 acatgatttt gtatttttat actaaaattc aagatattta attttatgaa caaagaaatt 142440 tagtttaaaa tttttacttt ctagtgctat ttcaggctac aaagtcagtg ctataagaga 142500 atcaaaatat cctaaactta gatctttatt ttagatactt aagatgtaga agaaattaag 142560 cttgctgaaa ttttatataa tgaaactatg tgataacact gtatctctta ggagatcatt 142620 gtgacaattt caagaggcgt gggcattaga tcatagcact gcaaatggtt tttaaaatgt 142680 taacatgggc tgaaataaga tatttaggtg ttcagccagt acattttact ctcctaatat 142740 aggaagtcag caaccttctc ctttccccag ggcttctaaa tcaaatttgt cctggggctg 142800 gaattggaag agaccctact tttagggtaa ccatgggcag tttagccacc cttggaggtt 142860 cttggggaga ccagggctgt tgtctgaaca cttagagatt attctctgct tatctcagtt 142920 ttctggtttc agttgattct cttaagttac tatcgaatct tgaccctcaa aggctggcac 142980 agaacatccc ccctctaaaa ctcctacaga tggtggcagt ttatatgaag gcagataatt 143040 ggtggcagtt ctgtggtcat gggagaaagt tatatagatt tctgcacaat catgagactt 143100 tctagaacct aattcaaatc tttccctttt catgtttttt tcctttgtca gttttcagtg 143160 ggcctaacct gatttatgaa tcactaacta taaagaattc acttcatagt tttactacat 143220 tgtttataga gtgttcaatc aagaagcact tcagaattac accattacca agtctgctca 143280 ctgtgaaacc aagcagattt ctgcgtgtga acagaacaga ataagcaaca tgctgactct 143340 cactggttag atttattcat ggtcagagtg gtctcttata gtgatacaaa tttcatttta 143400 ttttatatct taagtaattt atgatagctt tcatttatgt ttaagtaaat atctagccgg 143460 gggctatctt aatggatttt acagaagaag ccccaaaaca caaaaatggt ctacatttat 143520 tatgtatagg gtgtagaaat tgcctttaca taaataacgt tagaatttac attttgcagt 143580 gatctatttt ttggcaccca tttattagtc tgttatcatt gcaatctaga caaagcatct 143640 aatgagtcta ttgtaacacc caagttccta gaccttcttg cagtttgatt tagaggaagg 143700 ccaccataga gataatttct aaatgaagaa tgtaggaaag tgatttctaa cagctctgtt 143760 ctgagcctca tttctggatt ctgactgatt gtgtcacagc cccagatgaa tctcaaataa 143820 ttatttcaga gtcgggatat gattggtata aggtccacgc cgatccacca gcctgaaaaa 143880 aaaatcagtg aactatacat ttttttgggg ggtaagatgt gtggtttttc attatagcaa 143940 atattttaaa accatgagct gtgataatga agtgattcaa gatttgaaaa ggtatataaa 144000 ctgctacaac agagattaaa aaaagaacca aatgctgata gcagggaact caaaccgctg 144060 attccaattg tttgaaggtt cataaagggg aaatataata agcctttcta aaacaaaaga 144120 aaaaatctgt atcagaaggg agctgtgatt gatgttttca tcaatggcta aaacggttcc 144180 atttttccat tttttcctta ttcatctatt ggttaaaatt ttgcaaatag ctgtttccat 144240 taaatgaatt ttctttcaaa attgtgcttg gaaggggttc tttagctttc caagttcttt 144300 ggtttttgag gacttgaatc tacattgctt gctagactct acttcaggaa ggggttttgt 144360 tgaggcagat gctaaatggc cttgggccaa gaagctatga gccaagcatt cactgggagt 144420 tgaagctttc cttagagaaa aagaccatct gactttttaa ttagaaaact gctccagtcc 144480 acacctcagt gtcatctctt gggactccta aaccagaatc tagggtagct ttactagtgt 144540 ttttcttttt taaaacatgc aataaaaata tagaaccata gccaggggag ggatggaagg 144600 gtaagggggt atgtctcaag gggttgataa caggattaga actttgtaga aataatttgc 144660 atttctggct agtgtctgtt aataaaacac acatacttaa cttggctgga gttacgaaac 144720 ctggtgtttt acattttgag ttcctttaag gcaaaatcca acactttatc tgctaagcag 144780 aaatgaccac ctctgagaaa atttaagaac tagccctcag cacaggaaga agtagactag 144840 tttgagagga aatccacttg agatgaagcc cttagccagt tcagtggcaa aggcagaact 144900 ttcttcaagt tgttggttgg tgaaattgat gatgatagta taatagcaaa atcaaaggga 144960 tctagggtgg ctgcagtcta taactttgaa gaagctatgt tctgctctgc tgacttatag 145020 ggcatcagtt cagatctgtt ggtattagat atttccttga tgttacctct ggttcaaaga 145080 tgatattaat attaagcaac tataaatttt taggagcgat actgtttaaa ataaaccaca 145140 cttagctaaa ataggcattt tacttgccag acagtcccag aaaaatcaag gattttttta 145200 aaattaccaa gctagtagca cacactagac tttgagattc tagatggttt tttttcttgg 145260 gtatgttgcc agaatgcagg caaaacgctt ggcatttaac ttgccatctt ctgcctgtgg 145320 ttctatacaa gttgagaagg tgctttatgg gggtcagtaa tacaaatgtt acaacaaact 145380 tctgaactgt tagtacttta ctctcagcaa ttcgagctgt gctcttgcaa atattcttca 145440 tttttaagtt attgaacagc agaaccagag tcaaaagccc agtagagaca gccttaatgt 145500 taaaaaaaaa aaaaaagata atttaattta tttaaattgt cgtttggtgt aactgtccca 145560 taataacttt ttcatcattg agccctttgg tctagtaact tttctatatt ttttcgcttg 145620 ttctctcagc ttgtgataaa tcagctatac cactaggcca tcaaatgtat tcaattttag 145680 aagaaaacac ttcacaattg tttaaaaatc cagagtattc acatggggaa agtgtgggag 145740 gtttcaagtt tctgaaacat tctgcagaaa atgaagtgat aacagttcct gccggtggcc 145800 atatgactca ataataactg gaaggaaaaa aaaaatgttt gtttagactt ggccggagtt 145860 aataacaagc aagaattatc ttatttttgc tcataaacat gtttcctttc ttcagaatcc 145920 ctttcctcat cttttgtaga tacttcaggc tctcctgaca cctggcttcg ctcttggagg 145980 gatgttcaaa atgtattttg tgctgattca aggctttatt ttgattccta ctattcatta 146040 aaaatgcaat aacagaaaaa tctcattttt cttgcctcag ttagcctgcg ctatggcaaa 146100 atgtgggtag catttgtagt aggcagtcca aggttgatgt ctggaaggtt ttcattttaa 146160 ttccaggact taactgcctc agttcatcaa aatgctttac tgtttatggt tgcagaacgc 146220 atttggcacc aacatgtgct aacatgagct tttgttgtgt ttaaatttct tcccagcttg 146280 gctggccaga tctttatttt attttggtgc aaaggcacat ctgtcacctg tctcctcaga 146340 ggttatatgc ctcttgggag ggactccttt ttactgaatc tgtgctttat gtttagcttc 146400 caaatacttt acatgtttct atagccacca ccaggtgagc cacccaattt ttaatcgact 146460 tggttgatgg gctggggaat tacagtctgt tttattgtat ttatttattt tcactaagtg 146520 ggtgggatat tacagcttta ataaatgacc ttttgtgttg tgagcagaga gaatgtatat 146580 tttgacaaga aaagctttta tttcaatatg ttaagtaatt cttgtaggaa ttcataaatg 146640 aaagatttaa gataacgtat ttgaaggagg gaggctgaag catttgcctg ggaaaaggtg 146700 gatagttaga actatcacaa ggctgaaatt acatgagtat ttctgggtta attttaatgt 146760 attaatattt taaaaactaa attcacaaag actttaaaaa gaggcaaaat atttgataaa 146820 cataccaaga aatgtagcaa aactaaaatt tttagcttaa tgtggtgata agacttctaa 146880 ttttgtagac atgttttatc ctaacttgaa atttaaactc taatgtcact aagtttttat 146940 gttgtcggag tgttatttga tacagcactt ttatgctgca atttcatttc aagcatatta 147000 ttgtggacac ggtttaggat tttcagtaga ctaacaagaa atatttatat ataccccatt 147060 tgttcagtgt gtgtatatga gcaaattgtg tattttcata actggtctgc tgaaaatatt 147120 gatggggagc actacctgta tatggatcaa attcatttgg tgaagcatcc agttactaaa 147180 aattttggtg agagtaactt tacagaaaag ccgtaatgta gaattgcaaa tttagatatt 147240 tggggtaaga attatggtga ttcttttgcg atcagttcct tgatgacctg gcatctctag 147300 ttgatgccaa tctgttccaa tcttgacacc accttggggc tccacttctg gccaccttct 147360 tctgttgctc tttttttttt tccttcaaat gatggaaggt ataatagcaa agaaataaaa 147420 agagcaaggg cagcaaagca gtgtacagag aggaaaaaaa atgccttcag attttcttcc 147480 caggactacc acttaataac tatgtggact tggacacatc tctgatactg tggagactga 147540 ttatggaact gatgttgcag gctcgtgagg tttaacatta cctgacttca caatatgtta 147600 caagtccatg gtaatccaaa cagcatgtat tgctgtaaaa acagacacat agaccaatgg 147660 aacaaaatag tccagaaata aatccacaga cttacagata actgattttt cagtacaagt 147720 gctaacaaca tacactgggg agaggagagc ctcttcaata aatggtgctg ggaaaattga 147780 gaatccatac gcagaaggat gaaactggac cttgtctctc cccatataaa aaaaaaaaaa 147840 aacaactgaa gatggattaa agacttaaac taaggcctga aaccataaaa ctactagtaa 147900 aaaaataggg aaaacacttt aagacattgg tctaggtaaa tatttcatga ctaagacctt 147960 gaaagtacag acaactataa caaaaataga caaacgggac tacgttaaac caaaaagctt 148020 ctgcacagcc aaggaaacaa caaagtgaag agacgatctg ttgaaaggga taaaatattt 148080 gcaaagtatt tgaccaataa gagacgaata tccagaatat gcaaagatct caaacaacaa 148140 taaacccatt agaaaatgga caaagaacat gagttgacat ttctcaaaag atgacagaga 148200 aatgcccaac aggtatatga aaaaatacca acattactca tcatcagaaa aatacaaatc 148260 agacctgtac ttgtacctct gaatttacaa gttaaaaaca tgtaaaaata aaaaatccaa 148320 aatgagatat gatctaaccc tagttagaaa ggttattatt aaaaagacaa taacagatgc 148380 tggtgaggat gtggagaaag ggaatgcttc tataccattg gtggaaatgt aaattaatac 148440 aaccactata gaaaacggta tggagtagtt ctcaaaaaac tgaaactacc gtatgaccca 148500 gtaatcccac tgctgggtat ttattcaaag aaaaaacaga ataacaatgg atttctgtgt 148560 gattttcttc agaaatcaac actcatctgt ttattgcagc actattcaca atagcaaaga 148620 tatggaatca aaccaagtgc ccaaggatgg atggatggat gaaaggataa agaaaatgtg 148680 gtatataaac acaatggaat actatttggc tataaaaaat gaaatcatca ttttgcaata 148740 acatggttaa aactggaggt cattatgtta aataaaataa gccaggcaca gaaagacaaa 148800 tatcacatgt tctcatatgt agaagctaaa aaattgatct catgaagata gagaatagaa 148860 tgatgggata ccagaggatt ggaaggatgt gtgggtagga agggaggtac agagtttggt 148920 tggtgggtat aaaaatatac ataggtagaa taaataaact ctaatatttg atagcagagt 148980 agggtggcta tagttaacaa cgtgtatatt tcaaagaagc tagaagagag ggttgaagtg 149040 ttagcaacgc atagaaatga taaatactca agttgttgga taccccaaat accctgaatt 149100 gatcattaca cagtctatgc atgtaacaaa tattcagatg tacccataga taggtaaaat 149160 attttgttat cgatttaaaa aaaatggtgt ctgcaccatt tgccaaatgc ctccggctat 149220 ttaattagtg tgtggcaact ctttcagctg acccagggtg gcttgctaag acactagagc 149280 tcttcagttt ccataaagta gtattgttcc agattcctag ctcctcagtt agacaagtga 149340 acctaggtcc tttattcatg aagcatgaag ggcaccattt taccatccag tagagcatga 149400 ttttgtggta gagcatgatt ttgtggcttt ggtgcatcca tcctgagcct tcgtgtcttc 149460 ttattcttcc tatctgcttg atttactgtc cccactggct tgggcagttg tctctaattt 149520 ctattagagt tctggccaag gtttccccaa tacctgacaa tcctcccagg aggataagaa 149580 ttttttacag gacccagtag gaagccatga ggttacaaaa ttctaaggta aatatttaga 149640 ttatatccat tttattctta tctcataatg cataactatt gggttattaa tatatatctt 149700 ctgaaaaaag tttaaaaatt agcttgaaga tttacagtag tatgtaattt ttatctgcaa 149760 ctgtataaga cagacactcc cagagtgcaa gatctcccca tgggaatgca ttctcttagg 149820 gctgttcctt gctgagaaaa agaattcagc gatatttctc ctattcactt ttgtaagaag 149880 agaaatacta ttctgttctg tcccgccccg caggcagtca ggtccaatgg ttatctccct 149940 tgttccctga aaatcgcagc catcctgttc cttttggatg cccagatttc atattgttca 150000 aacacacatg ctctacaaac aatttgtgca gataacgcaa tcatcacagg gttctgaggc 150060 aacatacatc ctcagcttat gaagatgatg ggattaagag attaaagaca ggcataggaa 150120 attatgagta ttgattgggg aagtgataaa tgtccatgaa atcttcacaa tttatgttca 150180 gagtattgca gtaaagacag gcataagaaa ttataaaagt attaatttgg ggaactaata 150240 aatgtccatg aaatcttcat aatttatgtt cttctgccat ggcttcagct ggtccctccg 150300 tttggggtct ctgacttccc gcaacagggc caggcatggt ggctcacacc tgtaatccca 150360 gcactttggg aggctgaggc aggcagatca cctgaggtca ggagttcgag accagcctga 150420 ccaacatgaa gaaaccctgt ctctactaaa aatacaaaat tagccaggtg tggtggcaca 150480 tgcctgtaat cccagctact tgggaggctg aggcaggaga acggcttgaa cctgggaggc 150540 ggaggttgca gtgagccgag atcatgccat tgcactccag cctgggcaac aagagtgaaa 150600 ctctgtctaa taaaaaaaaa aaaaaaggga aatgagaaga tgctttgtat gtaatgagtc 150660 tggttttttt taaggcatac ctaaactttt taaagatttt agtacattct gtattttgga 150720 ttattttctt acaatagatt gaatagtaga attactgtat aaaaggatgt gatttttttt 150780 gccaacatat ttatattgcc aaatggcttt ccaaaaagct tgtgtttgtt attatgctac 150840 cagcatgagt actagcctta cgacatcttg ccagaactta attttgtatt gtaaaacata 150900 attttataaa acaatacttg atctgttttc agtcatattt atttattaat gaggaggatt 150960 cctccttcat ttctttacaa gttgcacttc atttttttat gaattgtctt tggaactctt 151020 gcccaccata ggcaaagaac atgcattcct taacaggttt aaaaaatata ttaaaaatgt 151080 ggttatttta ttttttaaga tgagtgtcca agacttccac aatgacaaag aactttgaat 151140 ttttcagagc tggacaactt aaaactagat tattgggtcc aagtacaagg tctttaattt 151200 ttagatggat tgaaataagt ccaaagttat actaaaaatg ctgaatttat agactgtttt 151260 gtcgtacaat gatagtttta gcttctgttc ttgagttcta agctttctaa gtcttgagtg 151320 ttgccagcta aggcaaatag aattgaggac atgtcaactt gtttttgaaa aattgcttta 151380 agaaaaagaa ttttaaaata ttcctgaggt aaaacttggc atatgtgctt caccagaaat 151440 ctgttcatgg gtttcatcaa tttttagcat tgttaatgtg gtggtactta aaacattttt 151500 ttacataaac acacacacac atatagagag agggtgataa atttatatat ataaatgggt 151560 gataaattta agaccaacat ttttatgagc atagaagtaa atgaaagaga atggataatt 151620 taaatatgtg tatatttcgt atacaatcct tttggccagt tacttttcaa aagttgacta 151680 tttttgtgtt cttttacttt tatagcaggc tcaacatgtg catggactag gttgtaatgc 151740 tagaaaaatg atgccatctg atttcttatg ctgatagtga catggttaat ttaaactcgc 151800 atcagattgg agaggtgtac ctatgtataa ggaaagactc cattaggcag tgttgatgag 151860 aaagttgcat catggctatt agtcttttta tgatggaata acataaacag gctaaggaag 151920 ataggctggt gttttggtgt tctgtaggga tagagagaag gctctctagg atctgtcctt 151980 tcagccaccc acataaagta gacatgaaaa gcatactaat ttctctatct tcttgccact 152040 ttcttatccc atccccttct agtacatcaa agttttccaa tgcagattta gcataaggtt 152100 tcagaaatta cagactgtgt ggatgagtgt ccttacaatt tcagctgatc cctcaggcca 152160 gcttaatgat cggttacctt gctctctctc tctctcattt ggcacagtag ttattcctaa 152220 acttgactgt ttcttttcag tagatgatgt tgttttctct ttatgacaga caattggaag 152280 tcagcaccct cacctttctg cccatctgta tatctttaaa cattgtaccg acttgtattt 152340 tcttgtgaaa gagataaact tttttctttt aaggctaccc caagcattct taggccttag 152400 ctcttctttt ccaagaggat cttatttacc tgttatgacc tgtttattat cttttcctcc 152460 ttttctctac cagctctttc tgcatgtcgt tattactcca gcgcctaatc ttcatatttc 152520 cacctggtta ttccacatgt atttcaaatt caaaatatct aaaatgacat ctaattctct 152580 gctcaaatgg gctcttcagc ctactatgcc ctattttaga aggtggtatt acctccctac 152640 tcactttagc cacaacctag aagtcacccg aaactcctcc gagattatcc ttatttccca 152700 tatacatttg gtcaccaatt ccactggatt ctaccacctt cacaacttgt tggcttcttc 152760 ctctcttaac ccagctctac tctttcctct ctttgcctac cttgactact tcagtggtct 152820 cttaagtgat cttttctcta agaccaactc taggagaata ggtatttatt atgcaaaatt 152880 ataatcttta acttcttctg ggtattacct tgaaacaacc aattacgcac ctatatttat 152940 catgttgcca agatcttaag cattaactgt attttggaga tagtctttta aaaaaaacat 153000 acattgcatt tattctatta tggtagtcac ttgactgtaa attttcaggt aacttgttaa 153060 tttcttgtta atgaagtaaa caaaagtgga ggtagatgca catgccaatg tataatatgg 153120 ggttgtcttt tgtcattctt aatcccctct ccattaaata taccccatac atacacaagg 153180 aacagcttac ctttgtgtgt acaatatctt aggaatgtca gaactgaact taagatttaa 153240 tatctggcta tatggaagtt tctctgcttg acaatgaaaa ttagatgaat gcacttttga 153300 caacctagga ttttccttgc tcttatagta cagaactact atgtagtgag tgccattaaa 153360 tactctgaaa cttacatccg ttggttgttt catgttactt gttactagtt ttgtgtaact 153420 ggacgtccac agactttatt ctattttact tgattttatt tttctatttt ttagtacaat 153480 aattcttcct gtgccttgat acaaatgatt cagttaattt cgtgagcact aagtgtccaa 153540 acataaagta atatgtagtg ataacaatca tgtgttttga tggaaaggaa aataaagggg 153600 gcttctgtca aatgtgtact gcaggtctca aattaccaag ggctttactg gactttggct 153660 atcgtggagc caaaagtact ccaaagctat tgatatgatt tggaggatac ggggagaata 153720 aagacacact ttatattaat acttattttt actaggaaag aaatagcact aatttgagga 153780 gagctagttt acacaaagta actcttatct gttgttggta tcaattttta gtgcaagatt 153840 aataagaatt tactaagcag tttaaacctt aaattttaca tcttgtaatt ggcttaattt 153900 cctatcatat gtttttatag cagtaatcta tacttctttc actagcaaaa tatgttattt 153960 ttccagcccg ggtagaaaaa cactggattt tatgtattcc ctgaaacaaa ttagcacagt 154020 ttggttaaaa cagctgccta aatgatgaga agcaaattgg attataaaat cctgcttgat 154080 agtttagcaa gtcagttaag taaggattcg aaccatatta tatggtcatg ggatgaaaaa 154140 tgacacacac tggttaagcc aagtgtctgg taatcgggca aacctcaatg cctggctctg 154200 ctgttgatct ggtggtggta tgtgtgtgcc tttctgacaa taatccagtt tctccaagtg 154260 tgagatcata gttgtatatt taataaggct ttatggagtg tccatcatga gttagatgat 154320 ttatttaggg atgaaacaac atactttgaa atcattgcaa aaccatgact atataatttt 154380 attgcactgg tgtgttattc aactttgtgg ttcagaatgt atctgcatat catgaaaaat 154440 gctagtggca atatggtgta acaaaggtca gatgaatgag taaacctaca acattcatca 154500 gttattcagc agttgaggaa gccttgcagc ttcagaactg gaggtagtga acattagagt 154560 gacagagatc tgattaatag agcctgtgaa atttaatttc tctttatctt caaccttatt 154620 gcaaacctag ttccctatat tccatttcta ctttattgct aaccctttca gctcttatat 154680 aaccaaggaa atacaacaca ttgttaaaga gtgaaatctt tggggttcgt aagcttcttt 154740 acttagtacc tctgtgaact ttgcgattaa gtgacttcac caatccttta caaacccaaa 154800 agtttcctca tttgtaaaat aatacctacg tcaaaacttg taatgaatac caagtaagtc 154860 aatacatgtg aaatgcttga tgttgtacat gggcacatat taatggtaat tagcaatgat 154920 gttgataatg tcagtccact aaggaatata gataaaatga tcttaatggt actgatctag 154980 agaagtggtt cttaaaccaa ggagaacatc agaatcacct gaaaatctta aactaagtag 155040 gcaaatagat gcatagattt ttttctatga atactagaac tgaattgggg tgaggtaatc 155100 cagtctggca gacattgtgc cttatactgt tacttcttta aaaattagag ttaataaata 155160 cagacggaat tgctttgcat ttttcttcat ggtagaaaac ctatttggat aggtggaaga 155220 aatagaagaa aagcagttac tgaaaaacta aaatctctaa ctgttctaag tttcctataa 155280 tatatactag atagttctaa ggtgagagac agacactgac actgtgtttt aaagtatcct 155340 tcagcaattt tgaagtctta attgaatgtt ttcttcctca gcagaaactg aacccattta 155400 tctgtataag ctctccaagc ttgtagttat tgaaaaagtt ctctgtcctc cctctctctc 155460 tcttcttagc caagagcagt gtgcatatta tttgcttgct tgggtgctgt tatgcgagtt 155520 tgtgtattta aagcttgtga gagagccaag ccacaggatc tggctggctt tcagctgcta 155580 aacagggggc atgtaacttg ccattggtcc ccaactgcga gaattgtgga tgtaatttct 155640 ttttggtaaa catccatcct gaagtgaatt tatctcctct acacatttgt tttcctttgg 155700 gtgttttcct tttgttgtat gatcctcact tcgttggaca tgagtacttc tgtagtgtta 155760 cttatcctct caaaacaatg aaaaattact tttgcaaagc tgtttaagtc agaggatgta 155820 aaatggatcc catccaaagc agccattacc atccatcaga ggtaggaaga gagacgtcta 155880 ctaccagtca gacaactcac agtccatggt gtgactgagc tgtggcagca gccgtggcat 155940 tggccttgca acagtgtcag ggcatgcggt ccagcctttc ttgtgatttg gctctgagtt 156000 agattgattt atatggttgg tttaaggaag gctaagaaaa tctattcttg atcttctggt 156060 ctcattgaca ttctctgtca ctgtcattgt tattatcacc accaactacc atcaccacca 156120 ccactaacat gtactgatgc tcacaatacg ccatgaaccg gactaaactt ttacttaatt 156180 tccttattta atcataacgc caactttatc tcataggaac tactatttct cacacttcac 156240 agatgagaaa ctgaagccct agagaagata cccgctatga agctttggat aagttacagt 156300 ggcagagctg aggctgaaac caaggctcag tctccaaaga gcatgttcta aacttgtctg 156360 ttatattgct ctcctgaatt aagatgattg ttggaaagca tccactttag gaactcacca 156420 cttttaaaca ttccatacat caaaatttgg aatggcattt ctcctagttc tgttactttt 156480 atgtaatcta agtgccttta ctaaagggaa tcaaaaggtt aggcttagaa gcacagtgtt 156540 ggagaagtct ttacagtgta atctggaata ctttggcaag attaaatttt tagtcttttg 156600 tttaaaataa aaatgacatt tcaaaagaag aataggcagt atgtgtttat ataaaaagct 156660 aattattcaa actttgtcag ctaagcagta catctgttaa ctatgtattt tttaaaaggg 156720 taaaggatga tctaataagg tttaaggaat gtagagatta tatggaacct ggtggctatt 156780 tttctctctc agaaactact gaagtaacga cagaaggggg ttcagagttc aaataatcaa 156840 gagatcctta gcacttaagg ttattaagaa tacttaagta ttctcatggg tctctaaaat 156900 actttttcca ggataaatgc aggtatacat attttaaggc atatatatag agcagatgag 156960 cactctaggt ctttacctgc acagtgattt ttttggtcta tatttaatat ttctgattag 157020 ttaggaattt tagaatttgc tagttaccat tggtgtaaac aaaacagaat tggacatgtg 157080 agttgctctc cattatataa accttagttg cacatctgta atacagagta tttgaacata 157140 ggattaatga tcactggcct ctgatgaaca tcgatacaaa aatcctcaat aaaatactgg 157200 aaaaaccgaa tccagcagta catcaaaaag cttatccacc atgatcaagt gggattcatc 157260 cctgggatgc aaggctggtt caacatatgc aaaccaataa atgtaatcca gcatataaac 157320 ggaaccaaag acaaaaacca catgattatc tcaatagatg cagaaaaggc ctttgacaaa 157380 attcagtagc ccttcatgct aaaaactctc aataaattag gtattgatgg gacgtatctc 157440 aaaataataa gagctattta tgacaaaccc acagccaata tcatactgaa tgggcaaaaa 157500 ctggaagcat tccctttgaa aactggcaca agacagggat gccctctctc accactccta 157560 tccaacatag tgttggaagt tctggccagg gcaatcaggc aggagaaaga aataaagggt 157620 attcaattag gaaaagagga agtcaaattg tccctgtttg cagatgacat gattgtatat 157680 ctagaaaacc ccatcttctc agcccaaaat ctcctgaagc tgataagcaa cttcagcaaa 157740 gtctcaggat acaaaatcaa tgtacaaaaa tcacaagcat tcttatacac caataacaga 157800 caaacacaga gcaaaatcat gagtgaactc ccattcacaa ttgcttcaaa gagaataaaa 157860 tacctaggaa tccaacttac aagggatgtg aaggacctct tcaaggagaa ctataaacca 157920 ctgctcaatg aaataaaaga ggacacaaac aaatggaaga acattccatg ctcatggata 157980 ggaagaatca atatcgtgaa aatggccata ctgcccaagg taatttatag attcaatgcc 158040 atccccatca agctaccaat gactttcttc acagaattgg aaaaaactac tttaaagttc 158100 atatggaacc aaaaaagagc tcgcattgct aagtcaatcc taagccaaaa gaacaaagct 158160 ggaggcatca tgctacctga cttcaaacta tactacaagg ctacagtaac caaaacagca 158220 tggtactggt accaaaatag agatattgac caatggaaca gaacagagcc ctcagaacta 158280 ataccacgta tctacaacta actgatcttt gacaaacctg agaaaaacaa gcaatgggga 158340 aaggattccc tatttaataa atggtgatgg gaaaactggc tagccatata tagaaagctg 158400 aaactggatc ccttcttaca ccttatataa aagttaagat ggattaaaga cttaaacgtt 158460 agacctaaaa ccataaaaac cctagaagaa aacctaggca atactattct ggacataggc 158520 atgggcaagg acttcatgtc taaaacaccg aaagcaatgg caacaaaagc caaaattgac 158580 aaatgggatc taattaaact aaagagcttc tgcacagcaa aagaaactac catcagagtg 158640 aacaggcaac ctacagaata ggagaaaatt tttgcaatct actcatatga caaagggcta 158700 atatccagaa tctacaaaga actcaaacaa atttacaaga aaaaaacaac cccatcaaga 158760 agtgggtgaa tgatatgaac agacacttct caaaagaaga catttatgca gccaaaaaac 158820 acatgaaaaa atgctcacca tcactggcca tcagagaaat gcaaatcaaa accacaatga 158880 gataccatct cacaccattt agaatggcag tcattaaaaa gtcaggaaac aacaggtgct 158940 ggagaggatg tggagaaata ggaacacttt tacattgttg gtgggactgt aaactagttc 159000 aaccattgtg gaagacagtg tggtgattcc tcagggatct agaactagaa atactatttg 159060 acccagccat ctcattacta ggtatatacc caaaggaata taaatcatgc tgctataaag 159120 acacatgcac acatatgttt attgtggcac tactcacaat agcaaggact tggaaccaac 159180 ccagatgtcc aacaatgata gactggatta agaaaatgtg gcacatatgc accatggaat 159240 actatgcagc cataagaaag gatgagttca tgtcctttgc agggacatgg atgaagctgg 159300 aaaccatcat tctcagcaaa ctattgcaag gacaaaaaac caaacaccac atgttctcac 159360 tcataggtgg gaattgaaca atgagaacac atggacacag gaaggggaac atcacacacc 159420 ggggcctgat gtggggtggg aggagggggg agggatagca ttaggagaaa tacctaacgt 159480 aaatgatgag ttaatgggtg cagcacacca atatggccca tgtatacata tgtaacaaac 159540 ctgcacgttg tgcacatgta ccctagaact taaagtataa taaaaaatat atataaatat 159600 atatataaaa gaaaaaaaac acaaatcctt tgtcagttct gtgtgtttca aataacttct 159660 cacagtttgt tttacacctc ttttaaagtt gtttcttatt ccaatagttt ttggggtaca 159720 ggtggttttt ggttacatgg atgggttctc gagtggtgat ttctgagatt ttagtgcgcc 159780 tgtcacctga gcggtgtaca ctgttcccaa tatgtagtct tttacccctg atatcccctc 159840 tcaaccttaa ccccctgcca agcctctaaa tccatcatat cactctgaat tcattcaaaa 159900 atgcattcat aaaagataac tttataactc aagaataaaa aaatcatatg ttatcactta 159960 taaatgggag atagctatga ggtttatctg agtgcaggat agtgatctta ttgtaattgt 160020 atatactgat attttatgga gatttgaaga atacttccct acctctgtat tctcctgtat 160080 attgtgctaa aagctttcat tttttttgca tgcatattta aaccataaat ctacttgaga 160140 acttattttg tgtgtgtgtg tgtgtgtgtg tgcatgttag gtgagagctg ggaatacaat 160200 ttatttgctt tcctttttgg aaaaccagac atcctagcat gactgattta agatcctatt 160260 ctttttccac tgctctggcg tatgaggttt ctatatatgt atgggtatgg tctcttttct 160320 gttcagtttg tctgttcatc aatcccttca tcagtaccct actgctctta attactatac 160380 atntaataat aataaattta aaatttggta gaacaaggtt cctcacctca ccttgtttta 160440 attcagagga gtcttggcca ttttggcttc ttgatctttt ataaaaatgt tgaaaccaac 160500 agaggtacac aaaagccttg aggaattttt attggaattg catccatttt ccagacaata 160560 cacggacttt caaagagttt aatactgatc ccctcctctc tcttttcaaa gaatatgtta 160620 atattgtgca gtactaagtt ccaccttatg tttaacctca aaattagaca ttttttattg 160680 tttgatatat gcaatgcttg ttttgattta tccatatgtt catgtctccc tccccctcag 160740 cattcctttt tgtgtctcaa tttatttctg tggccgattt cctactttct gaagcacatc 160800 ttcagatgct ccctttagtg agggtttgtt tgtagtaacc tcagttttta tatgtcttaa 160860 agtatcttgg ttacattcac tcttttttgt cttttttttt ttaattgtat gttcaggggt 160920 acacgtgcaa ctttgttata tgggtaaact tgtgtcaagg gggttgtttg tacagattat 160980 ttaatcaccc aggcacttag cctagtaccc attagttatt tttcctgact ctctccctct 161040 ttctactctc aacccccgat aggccccaga gtttgctgtt cccctctatg tgtccatgtg 161100 tgttcatcat ttagctccca cttataattg agaacatggg gtatttagtt ttctgttcct 161160 gctgagattg gtaaggataa tggcctccag catcaaccat gttcttgcaa aggacatgct 161220 cttgttcttg caaaggacat gctcttgttc ttttttatgg ctgcatagta ttccatggta 161280 tatatgtact acattttctt tatccagtct atcattgatg ggcatcttgg gtgattccat 161340 gtcttggctg ttgtgaatag tgctgcaaca aacatatgag tgcatgtgtc tttatgatga 161400 aacaacttat attctttggg tgtatatacc cagtaatggg attgctgggt tgaatggtaa 161460 ttttgttttt agctctttga ggaatcgtta cactgctttc cacaatgatt gaattaattt 161520 atactcccac caacagtgta taaatgtttc cttttctcca caacctcact agcgtctgat 161580 attttttgac cttttagtaa aagccattct gactggtgtg agatggtatc tcattgtggt 161640 tttgatttgc atttgtttaa tcagtgatgt tgagcttttt ctcatgtttc ttggccacat 161700 gtgtgtcatc ttttgaaaag catctgttca tgtcctttgc ccacttttta atggggttgt 161760 tttttccctt acaaatttaa tttccttata gatgctggat attagacctt tgtcagatgc 161820 atgcttgcaa atattttctg ccattctgga ggttgtctat tttactctat tgatggtttc 161880 ttttgctgtg cagaagctcg taagtttcat tagatcccat ttgtcaattt ttacttttgt 161940 tgtaattgct tttcctgtct tcatgaaatc tttgcctgtt cctatgtcca gaatggtatt 162000 gcccaggttg tcttccaggg tttttgcagt ttgtagtttt acatttaaga ctttaattta 162060 tcttgagttg attttttata tgctgtaagg aaggagtcca gttccaatct tctgcatatg 162120 cttagccaat tatcctactt attgactaga gttctgtctc cattgcttgt ttttgtcagc 162180 ttcataaaaa atcagatggt tgtagatgta cagtattatt ttggggctct ctgttccatt 162240 tttccatgta tgtttttgta ccagtaccat gttgtttgca gccccgtagt atatagtatg 162300 tagtttgaag tcaggtagtg tgatgcctcc agctttgttc tttttgctta ggattgcctt 162360 gtctacttgg gctcagtttt tggtttcata tgaattttaa aatagttttt tctagttcta 162420 tgaaaaatgt cattggtagt ttgataggaa tagcattgaa tctataaact gatttggaca 162480 gtatggccat tttagtgata ttgattattc ctatccattc tacccatgaa catggaatat 162540 ttttctattt gtttctgtca tatctgactt ctctgagcag tgttttgtag atctttcacc 162600 tccctggtta gctgtattcc tagatatttt attcttcttg tggctattgt aaatgagatt 162660 gtattcctga ttgggcactc agcttgactg ttggtgtata ggaatgctag tgacttttgt 162720 acattgattt tgtatcctga gactttttct aaagttgttt atcaggtgaa ggagctttag 162780 ggctgaggct gtggggtttt ctaggtatag aatcatgtca tctgcaaata gggatagttt 162840 gacttcctct gtttttattt ggatgccctg tacttctttt gtttgcctgg ttgttctggc 162900 caggacttcc aatactatgt tgaataaaag tggtgagaga ggacatcctt gtctcgtgcc 162960 agttttcagg gggaatgctt ccagcttttg cccattcagt atgacattgg ctgtggattt 163020 gtcatagatg gctcttatta ttttcaggta tgttccttca atgcctactt tattgagttt 163080 ttattgtgaa ggaatgaatt ttattaaaag ccttttctgt atctattgag gtaatcatgt 163140 gtttttttgt atttagttcc atttatgtga tgaatcactg gtattgattt gcatatgttg 163200 aaccaacctt gcatcccaat gataaaagct acttgatcat ggtggataag ctgtttgata 163260 tgctttggat tcagtttgcc agtattttgt tgaggatttt tgcatcaatg ttcctcaagg 163320 atattggctg gaagttttct cttttttctt gtcaggtttt gttatcagga tggtgctggc 163380 cccatagaat tagttggaga ggagtcagtc cctcctcttc aatttttttg gaatagtttt 163440 agtgggaatg ctaccatcac tcctaaaaga tagttttcct gttatacaaa tctaagttga 163500 tagttacttt cagtacttag attttgtggc ctctgctgtt gaaaattcag taatccatgt 163560 aagaataact tttataggtg atgtgacaca aatctagaca gtacagaaac ttaaaaactc 163620 accactgcct cttatctcac aatggaagag taaatttttt tcttctcttc tttttttcta 163680 aaggggagtg tgtgtgtgtg tgtgtgtgtg tgtgtgtgta aaatctgcta atcaaaacga 163740 ttttctatag tcttagaaat ttttcaaaac ttattttcta tcagaagtgt gttttctagt 163800 cattaaaaag tcactacaga caacattaat agctgtataa tctattttag ggtataatgt 163860 acccaccaaa aaattccttc agtgtttaac ctctaggttg agtccatgtc taattatata 163920 cataaatctg cagtaactat ctgtgctaac atccttttct gcctttcaaa tatttttctc 163980 atgttagtcc tctaattgca ttaaaagaat caaaaagtac acactttttg aagaagttta 164040 aaacagctgt ctattgcatt ccagacaggt tgtaccattt tacacttaaa ccagatgtat 164100 acgtgaacac ttcattattt ttaatctact ttacgtttta acttcttgca cttaattttg 164160 aatgtataga tatacaggta tgtaccagtt gtaattgata atatagaaaa ttcccatagt 164220 ggcatttggg gaaggaactc tttacctgaa taacattatg cattcatata atccttaatg 164280 ggaacgtatc taatttctac ttctaaaata aagtctttct ggcactggga aacactcatg 164340 attttagtgg aagaaccaca gtatttcaat caatcaatgt actcaaattg tgaaatgcac 164400 catttatgca gttttatgga ataaatatgg aaggggattt atgcttgaat cctacttttc 164460 tttttacttt aatgacttaa agtggcatat gatccaaata ttgtcacatt taatgtttcc 164520 attgcagact tccctagagg atcatgtttt tagaagctcc ttatgattta gtttttttgg 164580 agttggcatt atagaaacct tttggatagg atcaatgaca aagcgatctt aataccaatt 164640 tataagctct aacaagtagc ttcaaaaatc atatcctgtc acgaataaaa tgtttacctg 164700 ccatatttgt gatctcagtg aattattatt aaatgagaag gtttttataa aatgatcccc 164760 taagccaatg tgtatttagg tggtagccat agtaattaaa gtctcatcct taagaaagag 164820 agagaatcaa ctcttcacat ctggcaggca tcattcttcc ctccttcttc cctccttctc 164880 tctcttcctc ctaatacata acctgcctca tccagatttt tggtcatttc catatcttgt 164940 tcatatatac aggaacttgg agggagataa gtcttgccct gtccctagct aatagacttt 165000 atttcacctt attttgtggc ataaaatact ggacgcttga agctttgctg ttcagtgaaa 165060 aatgttcttc atcagagcca gaaaagtagc agtgattcgt tttgactcat aaacttttac 165120 tatagcaatt ttgcaactct tattataatt tttatttctt taatttttgt aactttttct 165180 tttcagagga gttttattat tactcaaacc agtctccccg agcattcagg gatcagagtt 165240 tttaaggaca acttggtggg tggagggaag ccagtgagcc aggagtgctg attggtcagg 165300 tcagagatga aataataggg agctgaagct gtcatcttgt gctgagtcag ttcctgggtg 165360 ggggccacaa ggtcagatga gccagtttat caaactggct ggtgccagct aatccgtcaa 165420 gtgcaggatc tgcaaaatat ctcaagcatt gatcttagga gcaggttaca gagggtcaga 165480 atcttgtagc ttccagctgc atgactccta aatcataatt tctaatcttg tggctaattt 165540 cttggtctta caaaggcagt ctagtcccca gtcaagaggg aggtttgttt tgtgaaaggg 165600 ctattatcgt ctttgtttta aactataaac taagttcatc ccaaagttag ttcagcctag 165660 gcccaggaat aaacaaagac agcttggagg ttaagtcaaa tctctttcac tatctcagtt 165720 ataattttgc aatggtagtt tcaatccctc cttttgggtt ttataacacc ttaaatctta 165780 atatgttggc taaagaaggt ggaaaaaggg tgacaactgc tctaacttct tcgtgctgat 165840 caggggaata gtgggggtag gtgttgaccc caaggtaaga ggagtgaaac tgctttgcaa 165900 ctgtctgagc atacccatgc aggcctggct ggggttccaa ggcttatatg gcaaaggtgt 165960 tagtattgtt atctatagtt ttaataccga ctagggtaag aagtgcaatt cccagtttta 166020 aaagtaaata tttgaaaaca ttagttttgg gacttgtagc ccacaaagaa tttaggattt 166080 actccaaact gcagaaaaaa ttcaagaaca gctaacaaca gatatactat agtttttctt 166140 ttgaagtata tttttttctc tctccagtcc ccattttcta ttaaaaacaa atcatgatag 166200 aactgatttg tttaaaaaat aaactatagt cttattgtac ttggcctgat tatgtgcata 166260 aagtgcagcg agaataatta ttttttcaca taggctttta aaattggctt tgatgggact 166320 ctgttccata aggaatctca gataagactt tttaaaagct gaggctagcc atgggtttgt 166380 atcctcgaat acttaggagc tgggtaaatt cttctcctct ggaggtccta agatcacttg 166440 gggctcgtgg gtctgttaga aagtgatatt ctttagttac cacaggtcag gaaccttgta 166500 cagggactgt acagacaaga tatgaggcca gatttctcaa gagggtctta gtgactctga 166560 gtcaactttg attctttaaa gaaggcatat cattccagtc aaagccttgg taaaataacc 166620 agtttctcca atggtgtccc attacaaaga aaacagattt ttattacact tatgcaaaca 166680 actacaccgc cataaattga gaatactcac aaatagtttc caaattctgg aagaatcagg 166740 tagagaaaaa taaatatgct caaaattttg ttcataggag tatattttac tcaattgtta 166800 aaaatgctgt acatagctcg gaagacattt tcttggccct ggaaaacaaa aaggatcaac 166860 aacgttttaa gcaaaaaagt ttttaaaaaa gattacttgt ctattagttc agtccattca 166920 attaactcct gttatgcttg atatttatga agatttcagc tttccatgag agtcccaaaa 166980 gtctttttct ctattctaac gtcacattct ctaaagttat tagaaacgtg cattcaatag 167040 cacccataaa aagtcctata gctgattcta aaccaccttt tgaagaggaa caaaacaaga 167100 caacaattgt ctgtggagga caaaacagcc attattaaag ccacaattga ctaggaattt 167160 tggttacttc tgtggcatac aattttacat aacaattata actattaatg acatacacta 167220 agtcatcaga attatgggag ttccacataa ttttggaaca tacaccagta acgtatttat 167280 acaaatatag tccaaagaaa gccaaacacc atttcatatt tgacaatgct tcctgtatga 167340 ctttcatacc aaataagcca aacacatgat ttgagacttc aggggacctc atgtctaaag 167400 gattagttag gccagaaaat gacatactta ataatttgat tttggaaagt ttgtcaaata 167460 tcaaaggttt aaaacactgg atatcacaaa ataggatcac agattattca tttatctgaa 167520 atagtaactc aattttattt tatttttttg gctggagtgc aatggtgtga tcttggctta 167580 ctgcagcctc cacctcctgg gttcaagtga ttcacctgcc tcagcctccc aagtagctgg 167640 gattacaggc acccaccacc atgctcggct aatttttgta tttttagtag agatggggtt 167700 tcaccatgtt ggccaacctg gtctcaaact cctgacctca gctgatccgc ctgccttggc 167760 ctccctaagt gctgggatta caggcatgag ccacctgcct ggcctcaaaa aaattttaaa 167820 ggcaaaaacc tttactctga tagaagaaac ttggcttttc aaacaagacc caatgaagat 167880 agcatgaggc cagtggaatc tgtcccttct ctctcctctt tctttcccct tgttatttac 167940 ccaaaagggc aaacaaacaa aaacctttca ttacgtttta atattgcata aaaatatttc 168000 aaaagagaaa acaaaatggc atttttgcat tagtgcatct ttaatgctaa agctagtttt 168060 taaataaaat tttacaaatc tatccagttt taattcgttt gaccataagg taacattttc 168120 ataaactttt taggatgctt tacaattttc tgttacacaa cagattaatt ttctaagaaa 168180 accatgttat ttgggcacat ggactgagat tctggcccct cattagtgtg cttttatttt 168240 aatatttaac ctatggaaaa acaattaaat aattcccttc aaatcttagc caacttgctc 168300 atacccacag aactttcttt acaagaccaa cccttttctc ttgcttaagt cttcagtttt 168360 gtcccattac tctgttactc tgtttgtctg aactagaaaa aattacattt cctttaacaa 168420 aagccatatt cccatgcctt cttataatct tttaccaaaa acttattcct cttttcttat 168480 gcactttgta tgtaaaactg tttctccagt agtctcaatt acatgttaca atgttaactg 168540 ttagcaacct ttattttcgg tgaaaacctg acaagtaagt gattttaatt atgtactagg 168600 tgtggagtct aggccatcag gcaaataagg tctgactttt cccagcatag taactaggtg 168660 gggcatggct aactccacat gtcctcaggc ctcatctaga atctagtgct ccaaagtagg 168720 tatattgaac aattttttaa atgtcagagg cagtttatga caaagcattt agcaaatgtg 168780 atatatgacc ttaatttaga ccaaatgtct acattttgaa gtcacatgaa gaaaaagtca 168840 ttaaagtttg tttctctgac aaaatacttg atttaagaac ttatttttct aagccaatta 168900 atcagagctc ttttatatat aaacatcaca tatacaacac atataaatag acagaagata 168960 tagtagttgt acagtttttc atttgccagt ttcttagttg gattcctggc ttcagggtga 169020 agctcttgga gaacagggcc aggaaagcat gcagtttcta gggcctaata agtagacaca 169080 gctgtagggc aaagccagat ccccaaagac aaacccaccc ttttctgttt tatggaacca 169140 caggcaaaag attctccgtt ttgcaagatg tttcccaata ggccgcaggg gaaccaaatt 169200 aacatttttc atcccagcaa aatacacata acaaaacaga cactagtcac ctgcgaagag 169260 tggatagtcg tcccaagaca ggcctgttga actctcttca gggctcaccg aatgtgacca 169320 gacaaataag gagggttctc tgagttagac ctgctggact ttcagcagtt ccttctgaga 169380 tccactccac atatacacac acacacacac aaagacgaga aggatagaag gccttccaaa 169440 tcagatccct aaccaagaac tccaagagta taccttccaa actatccttc tattctccat 169500 ctgagaaatc tccctgaaat cttcctgttt gagaagtctc ccaaaccaag attctttcta 169560 ctagtcaggg agagtcaact gagacctccc agaagccaaa ccaagacaga caccccacca 169620 cggtgctaca gaaccagtcg ggagaaggaa gaaggtgttg gcagacccta ggatactcac 169680 caacccagac accccaaaat agagctacag attcccttta atatggctac agttatggga 169740 tgtctccaat aatttttaaa tatccagatt ttttggtttt acatttaagg atatttgtaa 169800 tttgttagtc ataatcctaa aaacacacat ttatgtagaa gtaaactgtc ttctcaccaa 169860 tatgcccaga tgtgttctat ggaaaagtat attttagatt acacatgcac atatgaagac 169920 acaaaaacat acacatcttg gggaaattgt gcatagtctc cataattttt caggtggcct 169980 acttcattgc actgaaacta tcagtgaccc cgaatttaag attcaatggt cattaaaaca 170040 gctgcagttg tctttcaaag aaagatatat gttagaacca atctggctat taataaaaca 170100 tttagatgat gagccctggg cattgtatta ctggaattta attttttttc tacaggaaga 170160 ttaggaaaac acataaaggc acctaaaata cacttacata ttgatcttct ttacaattta 170220 ttacccacaa attttgtctg ttttgtatta gaatcaaact gattggaagg aatttccaga 170280 agtgtcttaa ttcattaatt ccttctgatt tctaagctac tgtaatgaaa ataggtaact 170340 aatttttgaa aattctaaag gaggaaggtt tttttacatc tgttctcaat aactcagtgt 170400 ctagcttttc taatacataa agacattatt ataactatgt tatagctttg tagttgcaat 170460 tctgtttttg attagttaca tagtaaacag tagaaaacac ttctattttt ataatagaaa 170520 tgttaaaagg tatttttttt tttttaccta ttctgtgagc attgacatct ttttaaattt 170580 cttgacaatg cattctctgt agtcttctca aagtacctat gattattttc attttttgga 170640 actcttattt ggatctgctg ccttaaatca tcaaaagcca aacagaatgc agtatttgag 170700 cacagtaaat attcagtggc catcttatgt ttactgttcc tgttcactgt tactggcata 170760 gacttcaact caaaggcact caccaattta gctcaagttt cagtacaggt ccttgaacct 170820 gccctgctaa gatcatggaa ggtttgtttt gtattcatca taagtcactg atactcttta 170880 tatgtcaatc tccaggtaat gtcttttact aaaattatgg tagtttggac tgtgaatctc 170940 ttcttggata cctctgattc actggtgatt cattttaaat aattttcatt acatttaaaa 171000 tttctaaatg ctatttttaa actgttggtt tctcatgctt taacgcctga gttaagtaaa 171060 actgacaaga acatactgat agaagcatga caataagcaa tacttggaaa acttattaca 171120 gatacttgtt gcatttatat gtgtgtgtat acatgtagta gcttcctttg attttagttt 171180 atattgtatg tttaacagtc tctatacttt ttctggagag tagaatgcca ttttcagttg 171240 aggagacatg aactcatttc attaaatatg aggctgtttg taaaatataa ttaactatgt 171300 tctcgtgttt taatatttgg tagttataga caaagatatt tagtatcaag ataatccagc 171360 aaggctgtag atttcttaca accttggaaa tgtgctgtct ctaataatcg tgaggtatgc 171420 caaacatgtt agagttcctt ctcaaatatt tttcccctaa ttgaaatcca ttgcctctac 171480 ttgggtagtt gacaaagatt ctgaagtgac caaaatattt gtctggtctt gtggatagag 171540 actattttgg caaatgtttg ttactttctt tgtcctgtag gaataacaaa atataccatt 171600 ggttatcctc gtcttgtatc aaaccaataa tggccccagg cttcatttta tgaatttaaa 171660 gattcagcca cttaaaggaa tgaccagttc atggggtttg caggaattta tgacagaagg 171720 gaagagagta acattggcca tttccttcct ctcctcccac tcaggattat atttatgtaa 171780 gtcttataat ggacaagagg gtaagctttg ggaccagact acataagttc aaatcccaac 171840 tctactactt actgcctgtg gcatcttagg tttactttac ctctctgatc ctcagattct 171900 tctgaaaatt tgggatatct tcaccttaaa tatttatccc aattaccttt ctttgattat 171960 atgaatgtta aattatcaca tgtaccatga aaatatgtgc agctcttatg tatcaataag 172020 aaaactttac aaaataaaaa aggaataaag tatttcatag ggatatttta aatatgaaat 172080 gagttatgct cagcacttgg tacttggcac actacttaca tttatttgat tttaataatt 172140 tggaagaaac tcagcatcta aaagaaaaat atttcttgcc ttttttctgt aatccagcaa 172200 atatcttgat accactggta tttgtgtcac ctggactgag aggtactttt ctcatctttt 172260 tagtttttga agtgccaact ctgcatccct tagttaggca gaagccccaa acttgattat 172320 caatttgatt tattttcaac tgcaattttc ttagtctctt tagaattttt gcaaatgaac 172380 tagacagcct tttaaaaaga acctgttcat gaatagagat attctgtaga gtaactccag 172440 tttctggaat atgtccacag gagagatgaa tctgctatag cacaagtgac ctgctccacc 172500 ttggccagaa cataaagata agggccctac ccctgggtgt gtacccatgg gtgtgcctcc 172560 ccacactgga agcttaattt ctgcttgctt gcttcttggg ggattgccta caaatagatc 172620 ccagggaagg gagtccaggc agaaagaggt ttgcacaccc tttcagcagt actttatgct 172680 ctagaattgc atgcagttaa cttcgcacta agtcatctat gaagcttaca aaatattctt 172740 ggctttcagg agttggtgca tggctaggga atctttttta agttccctgg aggattgttt 172800 tacttctggc ctgtgagctg gcttttggaa ccacaggttt aaactttttc tgactcagct 172860 gaaaaataag catcctgtat tttttgtttt tttccttgag ttttgccata agcacactgt 172920 tgatactgag ttggagctgc taaatgtgtt gcttgaccct gggaaactga ggctttgaat 172980 gtcttaaccc cagggaataa ctgatttgag gaatatgggt tgtaggccag gcccatcagg 173040 gatctaatgg gacccaaggg aaccctgata ttgtgtggga ttgagcagga aggctgatgc 173100 ccttctccag cctagtattt acttattaat ttgtttgttc agcagccatt taaatgatta 173160 cgagatcaaa ggcattttgc tgggcataag ggatccgaag actatagtgg aaaaagtaca 173220 ggttttagaa tctgccagat gttggtttga atcactgctg agctatgtga ttttgtgcta 173280 tttacttaac ttctcgaaac ctatttcctc atcggcaaaa tagaaataat gcttgctttg 173340 cgagttgctg taaggattag aaataataca agtagggcac cttatatagc gctatcgttt 173400 atttagtgtt tgtgtgccag gtataatatg tgaaatttta tacatattct ccttccttat 173460 acagatgctg aagcaggcat cattgttact accagtttag aattgagaaa actaaggttt 173520 agaaaaagtg tctagtccaa gatctctagt ttctaagtgg cataactctg ctttgaatct 173580 agggctgtct gacgccccag actcatgttc ttaaccttgt attctagatg cctgccaagg 173640 ctagtatcat gttgtaccct gctacttctc caggttaggc ctgggagtga tccatccaag 173700 agctgttcag gcatccatgg ctctgtggcg actgaggcat gttgaattcc tctctagaga 173760 atatgcaatt gagacaaaag aggacagagg ctattataag agggaggtaa gccaaaaagt 173820 cacagggttt atcagggata gagtgtagcc tacatagacc atgtacaaag ctgaagttga 173880 ggccagaagc cgtggggaag cctaggaaga acaggagagt tcatttaaca gtagatgaca 173940 aagtatggct tggttcctga ccactttcag tgtttagatg tagcccttat atctttgctc 174000 caactctcag ttgacatgaa gtgtaattga atatctgtaa cttgattttt gggaagactc 174060 taaccaggat gctatggcac attacattgt agctatttta aaatttttta aaaatagaga 174120 tgggatctcc ctatgttgtc caggctggtc ttgaactcct ggcctcaagt gatcctctca 174180 cctcagcctc ccaaagtgct gggattacag gtatgagccc ccatgcccaa cctgttttta 174240 attatttaca aactagtaac catgatatac agccaaacaa aactgcaata ggaggtggta 174300 aatattacaa tgagggaggt tcaaagtgct gcagggcaca gagtggggaa tgtatttatg 174360 attctttgtg gagcatacat cccctcatat tatcttgtgt taactgtgtt catgtaagac 174420 ctgccactta actgaactgt tggcttggac caataaccta tacccttttc tttaagagac 174480 agggtattgc tttgtcaccc aggctggagt atggtggcat gatcatagct cactgcagcc 174540 tcaaaatcct ggactcaagc aatcctcctg ccttaggctt ctgagtagtt gggactacag 174600 gcatgtacca tgcccagtct cattatctta tatagctgcc atgtataaac cattactttc 174660 ttttcacttg tgtgtcaagt tccatagaaa ttgtgttgaa tccaaattaa gtaaatgctg 174720 ccatatgaca atggtcttaa atgtcatttc ttgggctact actttttgtt tttcatttag 174780 ttaatggtta ttgatttaag accaagagga aggtattaca tcttcttgtt ctaatggaat 174840 tattttaaaa ggtaccttcc gttatagtat gaagtcagct atggaggaac ttaattcttt 174900 tctggttatc ccatacctcc taatcaaatg aaaacagctg aatcattttc tctgcaaacc 174960 tgatggtttt tctgacttaa tttaggagtg ccaaatgagc ttgatattta tctgcattta 175020 ttttgagtta atttagggca ggcacctgta caacatcctg gcagcacagt ttgagtcctt 175080 accttttccc ccaaaacatt caattaaatg aaaatggata taaagcactt atagggcctg 175140 gtacaaagta ggagtgttca ccatctcacc ttacttagga aactttatag cctgcatctt 175200 gctaaaatgt aagaaaaaga ataagcagtg aatcaatgca gtataaattt acagaaaatc 175260 taagttacag agaagttgtt atttatgcag aatttaccag ttcatacagg gtttcagagt 175320 taggatgagg tcaatgactt tttttgtgga actcagtcag ggtaatattg tcttcagtgc 175380 ttctttgcct tccttgcaaa atgactcaat aacttgaaaa atgactatcc gtatttattg 175440 acctttaaag ctgggaaagt ggccgggcat ggtggttcat gcctgtactg taatcccagc 175500 aggaggatca cgaggtcagg agtttgagac cagcctgacc aacatggtga aaacctgtct 175560 ctactaaaaa tacaaaaagt atccaggcat ggtggcatgt gcctgtaatc ccagctactc 175620 aggaggctga ggcaggagaa tcgcttgaag ccaggaagcg gaggttgcag tgaaccaaga 175680 tcatgccact gcactccagc ctgggcgaca gagcgagact ccatctcaaa aaaaaaaaaa 175740 aaaaaacaac aactgggaaa gtatatgaga gaataactga actaggctca gagcacaggt 175800 ttccccttct aattagctgt agaagcatgg gtaggggtca ctctagatct tctgtgcttc 175860 agttgcttca tatctaaacc accttgcaga agtggactac agcagggcct agcaaattgc 175920 ctagtatatt tgctgtcttt ccaccctcac cagtgcagcc aactcattgt ggtgctggaa 175980 ggccaacttg tcaggaatca ccaccaaaca gctttcaccc ttgatgtcaa atctatgtga 176040 ctttctgcac cagaagttag tgaagatcat ttgcagtttt acatctctat tcttataaat 176100 aaggaatcca agataagaac ctgttatttg caggtagttt aactttccca taagaaagtg 176160 acaacaagaa tttgtgaata atgctttttc tctaaatcag tatttgaata gcagattttc 176220 cttcttaatt ttcttttctt ctctcattag cccaaatatc tttttaacag cagtgcaatt 176280 atatttttac cttgtgcagt acttgggtct tgttaatctt tagtccacta aagagactac 176340 ctatggttag aaagaaataa aaagcctcca atgggggttc aacaaaaagt atttaagaaa 176400 ttagagcccc aaagttgccc tgtacattgt tttaaaaaac catctcttaa ccagtactct 176460 tactgtaaaa gtgaattatt gcccccttgt ggtagaattg tgcatttatt ttttcacaca 176520 aatagtagag tcgtatttta ctgtttctac tgctctgaaa actttgtcct ttacaattaa 176580 cctaaagtat ttatgaaaat aattttagat agttttaaaa ctatctcttc ttgtttgtgc 176640 ttacctatgt gaaacaccac agaatcctgt cttcaaactg ttttgtgttt ctctttgacg 176700 gactacggat ttaagaaaca agcccaaatc tcattcagat taccttgttg tagtccttat 176760 tgcttcaaga aagctgaaaa aggttatgga atattcttac tgccccttta aaagccatgt 176820 catacactcg aagaacagat tttcttcaga gctgtaaaat gaggaatttc tgagaatttt 176880 tgaaataccg tgtgcaggaa accgtactgg taaatacagt tcatttataa aggttcaggt 176940 gatcttcttc agggttagct tttctgaata cagttcattt gtaaaggttc aggtgatctt 177000 cagggttagc tttttttcca tttccatcat tttgaacatg aaataaaatt ttaaaaccaa 177060 ataggacttc ctgtcaacaa agtgggtaac agatctgact cctaataaaa tgtcttctat 177120 gagaaaaatt gaagtcttaa agaagccatt tcataatttc atactatttt agataaaaaa 177180 atatggtaac tttttacaga tgaaagaata gtaacagtca gaggcttccc atttaaactg 177240 gctgattgaa atagctttta caaattagtg taaacctgtg caggtagtaa gtagtctgaa 177300 tcctgatatt ctgaatgatt gtcacatttg tatgttgaga gaagtaaatt ttgtccgtta 177360 tttattttgg acagttgtca ccctctatca atagtccctg caagaagaac aactcttgta 177420 agttatctgt agatcatgtg tagattttaa aagcacatgc tcttttatga cgatgaaatg 177480 actaagtgac cctttgaaaa atcttctaag ttactacttg acattcaagt aaactctcag 177540 caggtggctt gttattattt tcaacacttt aatgtttatt gctttgtctc tagattattt 177600 tttcttaagg aaaatgatag caaaccatta ttgaaggatt agatgttgcc agtcctttca 177660 aaacacagct atctgtaaaa tctttttagt gaaaagaaga ggtgcatttc tagaaaacca 177720 aatgattgtt actgaaaatg ccttaaaagg aactgacaac actttgtgct gtcagtaaag 177780 agccacaatt gattcatttc ctttactctt tccaccttac cctcacttct gactccacag 177840 ccagtgtaaa taagtaactc ttattttatt tacattttac attatgtaaa taagtaaaat 177900 aaaaataatt aaaatatgcc catttacatt atgtgaataa gtaaaatgta aatttatttt 177960 taataaattt ttaaatttac attttaatac ataagtaaaa tgtatatgtg ttaaatatat 178020 atgtattggt tgtgcatttt acttatataa ctcttatatt tgaaaattgc aaagagtaga 178080 tttaaaatgt tctcacacaa gaaaaaagca tattaggtga tggatgtgtt aattcgcttg 178140 attattagct tgattaacca tatcacatta tatacataca tcacaatatc atgttataca 178200 ctacaatttt tatttgtcaa ctaaaataaa tgtgttattc tgaactatat ggacagtagg 178260 aagattttta tcttaggcta cataggacat agtgtggtag atcccagtcc tgctcatcat 178320 atttgcccac ttgaactgct ttctagaagg aaaaaagctt caagaactaa caaacctcca 178380 ttcttaatgt ctgaagtgtt taggccaata gtttttaagc ttttatattt cagatctaat 178440 tacaagtgat gactctgcaa aagaatctgc ttactatcat ttccatcata gtaggaatgc 178500 ttttgtatta caggcttttt cttagatcca tttatgataa gttttagtga tatccaacag 178560 tagtattcct ggatataaag ttaattgtta ttacttaaaa tataaaatat aaaaatataa 178620 aatgctattt ctaaaataaa aatataaaat gctattacta aaaatataaa atataaaata 178680 taaaatactt gcattcataa agggaaaaca aactttattc cctcagtaat cacaaaaaga 178740 agaggtcatg aaaagtgtag tcaggacatt taagtacatt acaatttttt cagtattaaa 178800 gatccctgtg catgaatctt tgtccaagtt tagattatgt tctgagggat agagtcctag 178860 atctgagtca aaagttaaga atatttttta ttacttttct acacattggc agatggcttt 178920 tcagaaaggc tgtatcaatt ttatattctc aatgcatcct gttgcctgtc tcatgacatt 178980 cttacaagtg ttagatattt ttacttttaa ggatctttgt agtggcatct catcttattt 179040 ggaggtttta attgtgagat ttgattattt aaatatattt attagctatt tttatttcct 179100 ttatgaattg tttaggtctc gtctattttt aaatgaactt taaaaaatat tttagaaacc 179160 agttggtgtt ttctagacaa tcactagtct taaataaata cctcttgcta ctcattcttg 179220 ggcaaaatca agttgcccat atgggaaaaa aaaaatggta cagtactact catcatttac 179280 aactcagtcc ttctgacttt agatgtaaaa ggagcatttc atgttctgct tccagagtgt 179340 tctctgaaat atgacaatat ctgccaggtt ggtggttaca caggtttctt gtccctaagt 179400 tttagtggct ttgaagaatg actgaatctc tctgaggtga tttcgaaatc tccatgatga 179460 attttataat tcagtgaagc ccaggtttca agttagagca ttacaaactt aaaaatcagt 179520 aaaactcagt cctagttttg tcgcagttgt ggctacaaca gtaaattcca gttaattata 179580 tttgtcataa ttgtggctta ctttccacag cttgtgtgtt tatatatgta tgtaggtatg 179640 tccatgtatt acgtatacat atatatatag agagaagctt taatctcttt tatagtcaaa 179700 gctactgaaa tttttcttta gttttcttcc attaaaagcc tttcttaaaa cacacagcat 179760 tatggaaact ctagacagcc tcggtgcctt actctgaggg atgtacaaga aacatttttc 179820 cagtgatgga aagattctta cctataccca gtgagaggaa agagagcatt tgaagacctt 179880 tgactttgag agtttatgaa agaatgaaat cactgtctga ctggcagtgg agctggcatt 179940 tgcaccgctt catgtaattt gtgagtctgc ctatatcttg gttcaaaata atctaccctg 180000 tttctgattc taatagcagc aattcacagc tggatggtag cagtatttcc ataaggaatt 180060 gttcatattt ctctgcagaa gagttgatag gttatgctct tggaccattt ccacatgtga 180120 gcaagtcaat gtaattacat tagttagaat gtggctttga tagtatcttt ctaattttgt 180180 tcattttgag gataatcttg tcttgccagt gatattctac acatcttcct ttcatcctag 180240 ggccacaact ttttcacagt gtctcataac tttctagtga atgatgactg tagtattttc 180300 attctataaa catagagact aagagtcagg catatgcctt accagacatc tcagttacaa 180360 gactgtgcct agcctaccag gttttcttct tcccagaagt agcctttctc taaaccacat 180420 tgcattgcct tccttaaaaa cggtaataat tgggaccagt catctccttg catctgcata 180480 acagtgctga aaagatctgc cctgtagacc tgattctacc tgattttgaa gagattccct 180540 tagttatgat gtgtcaaggc cactgcattc tcaagacact agggataaag atatgcaaaa 180600 tttgtcacta gaattggata tgttggatgt tgacaatccc ctcgtaaaac tcaaacttct 180660 tttttttttt ttctaatgat cctgggcagt atctattcca agtcttctct tgtgaactaa 180720 aaagtaaagt taaattcatg acttgaatta tgcgttgggt gactgccatc atatttgcct 180780 ttaaatactt cccgtatagc atatatgtgc ttgggaatgt gcagcaattg aagtctagaa 180840 gtcattctcc aagtctaatc ccgcatccac agaggtaaag aaattaagca gaaacagaaa 180900 ttagcacgtt tgtatgtcta ttataactta ttttcaaata tatagataaa acgaggattt 180960 ttttgttagc tttaatctta ccgatttctt ttctcatgtt tgaaaatctt agaacgtgaa 181020 aaaagcattt gtatgaaaga ccctttctgt atgttacgtt gtattttagt attcttttac 181080 tacttttgct actttgagct gggcttgaag tcagaacaac gtagtatgga ccacaaaata 181140 ttttcagtta atttaggcct gtctgtggtc aaatcttggc taaccatctt aattcctcgg 181200 tatttgcaat atatcttatg tgagaaaagg gactggccaa aagcaaaacc aaccaaccaa 181260 acaatagcaa agaggtgtca ttcaagagag acttctgagg gaaatcttta gggttgtaat 181320 tagggccccc aaacattgct tgttggaatt ggtaccatat agcttattgc caacagagta 181380 attgtacaag ttaaaaaatt attttacata aataagcttt cagaagcatt gctgaatttt 181440 tggccaggat taccaactgt tttatgcaag tattgagtaa cttccctatg acacaatatc 181500 atatcagcca gtaaacccaa aaccatttaa tattgacaat tacttcagaa taatatattg 181560 ggtaaatgaa acgaaattga ccatcttaaa atgagctttt cccatcattt tgcatggatt 181620 tgctgttagt gaaagtagta catatttaac tcacaactac ataatttaca cgaagctttc 181680 ttgtgaatgt gaaaagcttt ctttaacata tattctttaa catatattca gtattaaaat 181740 ctagtaagat aagctttatt tttccattca cttaatttca atttgctttt aaaagaaact 181800 ccaggcttta tatcaattaa acataaacca aatgaattta aaatgtagtc agtaatgatt 181860 ttttaaacta aggattttgt tgtttagaga aaatacagaa caaaaacttc ttcataacac 181920 tttataattg aagcttttaa aatatgctat attttgtatt aaatatttca tttttctgcc 181980 ctcctttggt gtgtctcatc attagagata atgttactaa atagttgtaa ctttacagct 182040 gctttgatta atgatggctt gaactaaggt ttcatggggt aggattaact acgtttcaag 182100 atggcaaact gccattataa cattaatgcc agaatttaat gagaaccaga agttagcttt 182160 aaggaccttt ataatttaat atgggggcat gatcatgttc tcattgtttt aatgcaatgt 182220 cctattaaac ataagttatt cttttaaatc tttttttctt gtgataaaaa gatgtaaaaa 182280 catttgctca gcaaatgttt attgactatc gactaagtgc cagtcactgt gctagggtct 182340 tgaagagtaa gcctgttttc catccttaaa acagatcctt tctgatcaga aagaacagaa 182400 ataagaaaca tctaccttat ttagaaatct catggccttc cttaaccttg tatgactctg 182460 gtttcctaat tcatgtatct ccctagactc tggtctgttt ccttttcatt tttgacatca 182520 gcctccttct ccataggcta gattgaaaaa ttggcctgct atatgcctgg aatgaaaggg 182580 tctgggttat gtaattttac aggtatggga aggatgaaga gcacaaaact gaatgtcctg 182640 ttccctattc gtagtactga ttactgtgct gtcaaatagc tacaccttac aggaagagaa 182700 aagttaagct ttatagaatt acaagataaa atttgaagta gggaaagtaa gagaggaaga 182760 acagccaaca ggattctttc ttgttcattg agacaaaagt cttcctgtac tgaaggtgtg 182820 taggggtgac ttactttctg taaaatgcag gagaccttta aagccctttt ctgttctaaa 182880 aatcctctga tttctgtgtg tttagaactc aaagaggtga tggacctaag acagatgtct 182940 catgttcttt attctttttt ctcaaaatct tatgtgtaca aaggttgaga ccttataaag 183000 taagactgta aaactataac cacagatgga ggaagtaaaa tatagcagag gcaaagaaaa 183060 aaacagcatt taaaaaattc ctgctggagg aaaacctcaa ctagttagct tgtagcctgg 183120 gcttcctagt ggctaaggca aagaagagaa atacttggta tgatcgtctg gtagttagac 183180 acataccacc agtttatcaa aacaaataag cattcttctt gctctccatt aataacaaca 183240 acttgtccag gggatttgga taagaagcca taaggtatat aatgaatgat gtctccatga 183300 atttttatag aaaataaagg attgcacata tgtcatttta tacattggta tttggaatat 183360 ggaggaaata atgttaaaag caagactctt tttcccccat ggggaaaggg agagaggagt 183420 ttgaaacttc tggtatgttt gctatagata gatgcttatt ttcttttgac ccactgacac 183480 gtggagcagt agtaagatgt aaagatgtgt agaaaagggt agcattgtta gaagtaggag 183540 ggaataaatg gaatttttgt ggcaggatga tatttgaaag acggatcagg ccactgggag 183600 gtttttcaat atgccagttc cctgtaacag gaaaatcagt ctctgtttta gacagcatat 183660 ctaatttagt aaattattat tattctgtca aaattaatgt gaacaatttt ctctttgagg 183720 ctttttccat aggtgatgtt ttccagatgg gctttgtgca aaactcccaa tatttttgtg 183780 ttttctttcc tagagaaaga gccatttctg acatctcttc ttttctttcc ttcattgcag 183840 ggaagagaac accaaaggcg aaggagaaga ggaacaagaa aaagaaaagg aagctgatag 183900 aaagggccca ggagcaacac agcgtcttcc tagctacaga cagagctaac caataaaaca 183960 agagatccgg tagattttta ggggtttttg tttttgcaaa tgtgcacaaa gctactctcc 184020 actcctgcac actggtgtgc agcctttgtg ctgctctgcc cagtatctgt tcccagtaac 184080 atggtgaaag gaagcaccac cagcatggcc cctgtgttat ttatgctttg atttgaatct 184140 ggagactgtg aaggcaggag taagtgcaca gcccgtgact tggctcagtg tgtgctgaga 184200 gaatccgtcc ccggcaccat ggacatgcta gaggtgtgag gctgcagaac accgctggag 184260 gacggacttg tgcctattta tgtgaaagaa gatgcttggc aggcaatgcg ctactcactc 184320 gtgaccttta tttctcacat tgtgcatttt caaggatatg tttgtgtgga tatctgctta 184380 gtgttaccac atggtattct cagcatgtta ccttcacact gttgtgcgat gaaactgctt 184440 ttagctgagg atatgctctg gaaattcctg ctcagtttca ctgcagccct aatatgtaca 184500 tatactgcag gagctacata taaagctctt atttactgta tatttatgct ttcttgtggg 184560 taacaagtca tacctgatta atatgatgcc actttgtttc tagtggttcc taacccattg 184620 tctgataaat gacttttcta gtttggggaa ttgacacttg ttttgttgcc tcttgaaact 184680 tttttttttt cccctcattg tgggcttatt tctcattgta agggtaggat aaactagttt 184740 ttgtatatag agtcaaatga ccagtgtcaa agagtttgca tattgggtag accttctcca 184800 ctccacatgt cccacacata tagataaagc agcaggcggc atctggcaat cagaagccca 184860 aactgccttt gagtctaaga tgtgatgact ttgatgaaac acaactgaaa acatgaggga 184920 ctatatccag tcacttgtag ccagtttcac aggccagcta cagaattgtc caaacaaaca 184980 ttatttctga ctgcaatttt tttcccccaa atttaaagca atccctggct ttaaatgaca 185040 aggcacctac caatgttctt gggtcactga agaagctact accatgagcc tgtgcataga 185100 attttaggag ataaaaggat gaatttctgt gactgccagt cagatcttaa caggtttctg 185160 ttgagccaga atctgtttca gatccaagat ggagaggaac actatggaaa cttcccaggt 185220 gactttcaga gcagttgttt caaacacatc attgtccttt taggggaacc agtttttaga 185280 aggttgtgaa ttggcttttt cacaaagcat gattatcttc ctggctgatc caggagaaaa 185340 ttagaacaga aaaataatgg ttgtggattt tgaaacaaag caaggtaaag cctttttttt 185400 ttcaccttgc attggcaaaa ctacctcttc agtgttttta acttttgatt caaaagcatc 185460 ttaccaataa ggataaatat catatacatc gttatgaaaa tattgctatg agataataag 185520 ccacatatga atgttgtata caactttagg gtttacattt aatcctgaag tgttacctcc 185580 tttcatgtct atttacacta ttttcccatt tactaagtgg ggagggggtc tccttatata 185640 gtgcttcatc gttaataagt caatacctgt tgttcctggg atgttctttt ttgtgcatta 185700 aaaacttcaa aattattttt tgtggagatt tcttttttac tttagagata catttagaaa 185760 taactcagta ctttgttcta cccccaaaat aacagccctt taaaaaagac aggcaaatct 185820 ttaaaaacct atattggtaa ctacatctag aacactaact aactagttta tagataaact 185880 agataactgt aaactagagt ccaagtgccc gagttctaat ccagactgag agtggcctgt 185940 gaaaattact taatccctcc actctcagtt tccttatctg tgaaatgggg atcacattat 186000 catctgcctc taggggctgt gttttaagga ccaaatgaaa atatatacag ggaaatatat 186060 acagggttgt actttaagga tataattagg taaaatgtgt aaagtatggt caccacggca 186120 ttctatatac taagtactat acaagttggt cacctattac atctttcaat ggctatttag 186180 attcttttaa aaaatattga tttctcctta ttaacaaaat agaacattta tgaaaagtat 186240 caatctaatc tattgcttgg tgcctgggca ttatttgcta aaacatttac atctgcttga 186300 tttctgactc tccctgatat aagcagcata cacacacaga tacacacaaa actgaattct 186360 ttcctctatc aatcagtacg ggtgcaatca aggaaataaa ctagtcgggg tgtttcaaat 186420 ggggaattta acaccagaaa ttggttatac aggtgataaa ggagacacga agctaaaata 186480 tgttgccaag atgacccaga gattagcaac agcaggaggc actattttac ccctaatgca 186540 agaggaatta caagaagagg tggagtttcc aaaatctaga agccacaggt gcccagctag 186600 acttagaacc atagctgagg ctagagctat aaccacagaa ggagctggaa ctgaggacag 186660 aaagcttgtt tggtaggagc tgaaatattg tagatgatct tgttgctgtg agaaatgctg 186720 cttgaggcaa attcatagag gaggaaatag cctggcttct ccctatctcc caacctccag 186780 tcttccacca gtgcccgcta ttgcccaaag ctgcccagaa gccagtaggc aagggagtct 186840 gggtaacaca gttttctgtg gttcagaaga gcctgaggga agggcagcgg gtagatctaa 186900 gagcaaccaa atgatcggca taatcactga taactgcctt caactgttcc ccttcct 186957 4 225 PRT Homo sapiens 4 Met His Leu Arg Leu Ile Ser Trp Leu Phe Ile Ile Leu Asn Phe Met 1 5 10 15 Glu Tyr Ile Gly Ser Gln Asn Ala Ser Arg Gly Arg Arg Gln Arg Arg 20 25 30 Met His Pro Asn Val Ser Gln Gly Cys Gln Gly Gly Cys Ala Thr Cys 35 40 45 Ser Asp Tyr Asn Gly Cys Leu Ser Cys Lys Pro Arg Leu Phe Phe Ala 50 55 60 Leu Glu Arg Ile Gly Met Lys Gln Ile Gly Val Cys Leu Ser Ser Cys 65 70 75 80 Pro Ser Gly Tyr Tyr Gly Thr Arg Tyr Pro Asp Ile Asn Lys Cys Thr 85 90 95 Lys Cys Lys Ala Asp Cys Asp Thr Cys Phe Asn Lys Asn Phe Cys Thr 100 105 110 Lys Cys Lys Ser Gly Phe Tyr Leu His Leu Gly Lys Cys Leu Asp Asn 115 120 125 Cys Pro Glu Gly Leu Glu Ala Asn Asn His Thr Met Glu Cys Val Ser 130 135 140 Ile Val His Cys Glu Val Ser Glu Trp Asn Pro Trp Ser Pro Cys Thr 145 150 155 160 Lys Lys Gly Lys Thr Cys Gly Phe Lys Arg Gly Thr Glu Thr Arg Val 165 170 175 Arg Glu Ile Ile Gln His Pro Ser Ala Lys Gly Asn Leu Cys Pro Pro 180 185 190 Thr Asn Glu Thr Arg Lys Cys Thr Val Gln Arg Lys Lys Cys Gln Lys 195 200 205 Gly Glu Arg Gly Lys Lys Gly Arg Glu Arg Lys Arg Lys Lys Pro Asn 210 215 220 Lys 225 

That which is claimed is:
 1. An isolated peptide consisting of an amino acid sequence selected from the group consisting of: (a) an amino acid sequence shown in SEQ ID NO:2; (b) an amino acid sequence of an allelic variant of an amino acid sequence shown in SEQ ID NO:2, wherein said allelic variant is encoded by a nucleic acid molecule that hybridizes under stringent conditions to the opposite strand of a nucleic acid molecule shown in SEQ ID NOS:1 or 3; (c) an amino acid sequence of an ortholog of an amino acid sequence shown in SEQ ID NO:2, wherein said ortholog is encoded by a nucleic acid molecule that hybridizes under stringent conditions to the opposite strand of a nucleic acid molecule shown in SEQ ID NOS:1 or 3; and (d) a fragment of an amino acid sequence shown in SEQ ID NO:2, wherein said fragment comprises at least 10 contiguous amino acids.
 2. An isolated peptide comprising an amino acid sequence selected from the group consisting of: (a) an amino acid sequence shown in SEQ ID NO:2; (b) an amino acid sequence of an allelic variant of an amino acid sequence shown in SEQ ID NO:2, wherein said allelic variant is encoded by a nucleic acid molecule that hybridizes under stringent conditions to the opposite strand of a nucleic acid molecule shown in SEQ ID NOS:1 or 3; (c) an amino acid sequence of an ortholog of an amino acid sequence shown in SEQ ID NO:2, wherein said ortholog is encoded by a nucleic acid molecule that hybridizes under stringent conditions to the opposite strand of a nucleic acid molecule shown in SEQ ID NOS:1 or 3; and (d) a fragment of an amino acid sequence shown in SEQ If) NO:2, wherein said fragment comprises at least 10 contiguous amino acids.
 3. An isolated antibody that selectively binds to a peptide of claim
 2. 4. An isolated nucleic acid molecule consisting of a nucleotide sequence selected from the group consisting of: (a) a nucleotide sequence that encodes an amino acid sequence shown in SEQ ID NO:2; (b) a nucleotide sequence that encodes of an allelic variant of an amino acid sequence shown in SEQ ID NO:2, wherein said nucleotide sequence hybridizes under stringent conditions to the opposite strand of a nucleic acid molecule shown in SEQ ID NOS:1 or 3; (c) a nucleotide sequence that encodes an ortholog of an amino acid sequence shown in SEQ ID NO:2, wherein said nucleotide sequence hybridizes under stringent conditions to the opposite strand of a nucleic acid molecule shown in SEQ ID NOS:1 or 3; (d) a nucleotide sequence that encodes a fragment of an amino acid sequence shown in SEQ ID NO:2, wherein said fragment comprises at least 10 contiguous amino acids; and (e) a nucleotide sequence that is the complement of a nucleotide sequence of (a)-(d).
 5. An isolated nucleic acid molecule comprising a nucleotide sequence selected from the group consisting of: (a) a nucleotide sequence that encodes an amino acid sequence shown in SEQ ID NO:2; (b) a nucleotide sequence that encodes of an allelic variant of an amino acid sequence shown in SEQ ID NO:2, wherein said nucleotide sequence hybridizes under stringent conditions to the opposite strand of a nucleic acid molecule shown in SEQ ID NOS:1 or 3; (c) a nucleotide sequence that encodes an ortholog of an amino acid sequence shown in SEQ ID NO:2, wherein said nucleotide sequence hybridizes under stringent conditions to the opposite strand of a nucleic acid molecule shown in SEQ ID NOS:1 or 3; (d) a nucleotide sequence that encodes a fragment of an amino acid sequence shown in SEQ ID NO:2, wherein said fragment comprises at least 10 contiguous amino acids; and (e) a nucleotide sequence that is the complement of a nucleotide sequence of (a)-(d).
 6. A gene chip comprising a nucleic acid molecule of claim
 5. 7. A transgenic non-human animal comprising a nucleic acid molecule of claim
 5. 8. A nucleic acid vector comprising a nucleic acid molecule of claim
 5. 9. A host cell containing the vector of claim
 8. 10. A method for producing any of the peptides of claim 1 comprising introducing a nucleotide sequence encoding any of the amino acid sequences in (a)-(d) into a host cell, and culturing the host cell under conditions in which the peptides are expressed from the nucleotide sequence.
 11. A method for producing any of the peptides of claim 2 comprising introducing a nucleotide sequence encoding any of the amino acid sequences in (a)-(d) into a host cell, and culturing the host cell under conditions in which the peptides are expressed from the nucleotide sequence.
 12. A method for detecting the presence of any of the peptides of claim 2 in a sample, said method comprising contacting said sample with a detection agent that specifically allows detection of the presence of the peptide in the sample and then detecting the presence of the peptide.
 13. A method for detecting the presence of a nucleic acid molecule of claim 5 in a sample, said method comprising contacting the sample with an oligonucleotide that hybridizes to said nucleic acid molecule under stringent conditions and determining whether the oligonucleotide binds to said nucleic acid molecule in the sample.
 14. A method for identifying a modulator of a peptide of claim 2, said method comprising contacting said peptide with an agent and determining if said agent has modulated the function or activity of said peptide.
 15. The method of claim 14, wherein said agent is administered to a host cell comprising an expression vector that expresses said peptide.
 16. A method for identifying an agent that binds to any of the peptides of claim 2, said method comprising contacting the peptide with an agent and assaying the contacted mixture to determine whether a complex is formed with the agent bound to the peptide.
 17. A pharmaceutical composition comprising an agent identified by the method of claim 16 and a pharmaceutically acceptable carrier therefor.
 18. A method for treating a disease or condition mediated by a human secreted protein, said method comprising administering to a patient a pharmaceutically effective amount of an agent identified by the method of claim
 16. 19. A method for identifying a modulator of the expression of a peptide of claim 2, said method comprising contacting a cell expressing said peptide with an agent, and determining if said agent has modulated the expression of said peptide.
 20. An isolated human secreted peptide having an amino acid sequence that shares at least 70% homology with an amino acid sequence shown in SEQ ID NO:2.
 21. A peptide according to claim 20 that shares at least 90 percent homology with an amino acid sequence shown in SEQ ID NO:2.
 22. An isolated nucleic acid molecule encoding a human secreted peptide, said nucleic acid molecule sharing at least 80 percent homology with a nucleic acid molecule shown in SEQ ID NOS:1 or
 3. 23. A nucleic acid molecule according to claim 22 that shares at least 90 percent homology with a nucleic acid molecule shown in SEQ ID NOS:1 or
 3. 